JP2006332760A - Antenna - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an antenna that enhances the assembling performance and the productivity by decreasing more the number of components, attains a smooth state change in an antenna element and ensures the reliability of connection continuity between the antenna element and an antenna output terminal for a long time. <P>SOLUTION: The antenna 1 includes: a base member 2; a shaft body 3 revolvably supported by the base member 2; an antenna base 4 supported around the circumferential face of the shaft body 3 and revolvable over a prescribed range of the base member 2; and the antenna element 5 provided to the antenna base 4. The antenna base 4 is provided with a connection piece 4c in continuity with the antenna element 5 and extended toward the shaft body 3. The shaft body 3 is provided with a coil spring 12. One end side 12a of the coil spring 12 is fixed to the shaft body 3 and the other end side 12b is fixed to the base member 2. The coil spring 12 is pressed into contact with the connection piece 4c in a direction of developing its energizing force and connected to the antenna output terminal 10. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an antenna provided in an automobile or various devices.

  An antenna attached to a moving body such as a car is normally held in a state in which the antenna element is raised, that is, in a state where the antenna element is raised at a predetermined angle so that a desired radio wave can be received efficiently. It is configured so that it can be in a state. This is because, for example, when the antenna is attached to the roof of the vehicle body, when entering the garage with a low ceiling, the antenna element is laid down before entering, so that the antenna element will not be damaged by hitting the ceiling, etc. This is because such an accident can be prevented in advance.

Moreover, in recent years, the antenna element can be in both the standing state and the sleeping state (falling state), and when the force is applied from the outside, the standing state is shifted to the sleeping state, and the outside from the outside A vehicle-mounted antenna configured to self-return to a predetermined rising state by the action of a coil spring when the force is released has been proposed (see, for example, Patent Document 1). According to this vehicle-mounted antenna, damage to the antenna element can be prevented without requiring an operation for switching the state (posture) of the antenna element even when entering a garage with a low ceiling.
JP 2003-188619 A

  However, the above-mentioned vehicle-mounted antenna requires the first clutch plate and the second clutch plate as members for connecting the antenna element and the antenna output terminal, and separately from this, the attitude of the antenna element The number of parts is large and the structure is complicated, such as requiring a coil spring for self-returning (state). Therefore, this in-vehicle antenna has problems to be improved, such as poor assembly and low productivity.

  Moreover, in this vehicle-mounted antenna, the first clutch plate and the second clutch plate are slidably brought into surface contact so that the antenna element is in a state of being connected between the antenna element and the antenna output terminal. Although it is variable, since the click mechanism is provided especially at the surface contact portion between the first clutch plate and the second clutch plate, the first clutch plate and the second clutch plate The sliding between them is difficult to be performed smoothly. Accordingly, when the state (posture) of the antenna element is changed, a relatively large load is applied between the first clutch plate and the second clutch plate, thereby smoothly changing the state of the antenna element. In addition, it is difficult to ensure reliability over a long period of time for connection conduction between the first clutch plate and the second clutch plate.

  The present invention has been made in view of the above circumstances, and its object is to reduce the number of parts to improve assemblability and productivity, and to enable a smooth change in the state of the antenna element. An object of the present invention is to provide an antenna that ensures the reliability of connection continuity between an antenna element and an antenna output terminal over a long period of time.

In order to achieve the above object, an antenna according to the present invention includes a base material, a shaft body rotatably supported on the base material, and a shaft held by a peripheral surface of the shaft body so that the antenna rotates within a predetermined range. An antenna base provided movably, and an antenna element provided on the antenna base,
The antenna base is provided with a connection piece that conducts to the antenna element and extends to the shaft body side,
A coil spring is provided on the shaft body, and a center axis thereof is provided so as to substantially coincide with a rotation axis of the shaft body. The coil spring has one end side fixed to the shaft body and the other end side fixed to the base material. And
The coil spring is characterized in that it abuts on the connection piece in a direction in which its urging force is exerted and is connected to an antenna output terminal.

According to this antenna, the coil spring is used as one of members for connecting the antenna element and the antenna output terminal, and the coil spring is used for self-returning the state (attitude) of the antenna element as in the conventional case. Since it is used as a member, the number of parts can be reduced by providing the coil spring with a plurality of functions.
In addition, since the connection between the antenna element and the antenna output terminal is made by the connection between the coil spring and the connection piece, the contact between the coil spring made of a wire and the connection piece becomes a line contact. Thus, when the state (posture) of the antenna element is changed, the load generated between the coil spring and the connection piece becomes relatively small.
Furthermore, since the coil spring is in contact with and in contact with the connection pieces in the direction in which the urging force is exerted, the contact between these coil springs and the connection pieces is ensured satisfactorily over a long period of time.

Further, in the antenna, the coil spring is provided between the shaft body and the base member in a state of being biased in a compressing direction, and the connection piece is sandwiched between the wire members around the coil spring. You may contact | abut to this coil spring in the state made.
If it does in this way, since a connection piece is pinched | interposed between the wire materials which a coil spring circulates and is pressed by these wire materials, the contact between a coil spring and a connection piece is ensured in a more favorable state. Moreover, since the contact between these is ensured only by inserting the connecting piece between the wire rods of the coil spring, the assemblability is improved and the productivity is improved.

Further, in the antenna, the coil spring is provided between the shaft body and the base member in a state of being biased in the extending direction, and the connection piece is pressed against the wire on one end side of the coil spring. You may contact | abut to this coil spring in the state.
In this way, even when the antenna base and the shaft body are integrally formed with the joint piece incorporated, the contact between the joint piece and the coil spring can be facilitated by providing the coil spring in the shaft body. Therefore, the number of parts can be reduced and the assemblability can be improved.

Further, in the antenna, the shaft body is provided with a first locking portion on a surface held by the base material, and the holding surface of the base material that holds the surface of the shaft body has the first locking portion. It is preferable that a second locking portion that is slidably locked with respect to one locking portion is provided, and the coil spring is housed and provided inside the shaft body.
In this case, the shaft body and the base material are sufficiently adhered by the locking of the first locking portion and the second locking portion, so that the sealing performance between the shaft body and the base material is improved. Rainwater etc. are prevented from entering the body. Therefore, corrosion of the coil spring accommodated in the shaft body can be satisfactorily prevented.

Further, in the antenna, one end side of the coil spring is detachably engaged with at least one engaging portion provided on the base member as the shaft body rotates, whereby the shaft body It is preferable that the rotation with respect to the base material is restricted.
If it does in this way, a click feeling will be acquired by engagement / disengagement with respect to the engaging part of the one end side of a coil spring. Further, since the rotation of the shaft body is restricted by engagement / disengagement with respect to the engaging portion, the state (posture) of the antenna element can be set at the position of the engaging portion.

In this antenna, a plurality of the engaging portions are provided, and when one of them is engaged with one end side of the coil spring, the shaft body is in a predetermined position with respect to the base material. Preferably it is set.
If the one engaging portion is set to a position that holds the antenna element in a predetermined angle so that a desired radio wave can be efficiently received, for example, with the predetermined position, By engaging one end side of the coil spring, the antenna element can be positioned so that a desired radio wave can be efficiently received.

Further, in the antenna, the antenna output terminal is provided on the base material and is connected to the other end side of the coil spring, and one end side is connected to the connector and the other end side is the outer surface side of the base material. It is preferable that the lead wire is led out.
In this way, by providing the connector in advance on the base material, the connection between the connector and the antenna output terminal can be achieved simply by connecting the other end of the coil spring to the connector, thus improving the assemblability.

In addition, the antenna is preferably for in-vehicle use.
In this way, the antenna element can be satisfactorily prevented from being damaged particularly when entering a garage with a low ceiling as described above.
Further, the present invention can be applied not only to in-vehicle use but also to various antennas for outside the roof.

In the antenna according to the present invention, the number of parts can be reduced by providing the coil spring with a plurality of functions, thereby improving the assembling property and increasing the productivity.
In addition, the contact between the coil spring made of the wire and the connection piece is a line contact, and the load generated between the coil spring and the connection piece is relatively reduced when the state (posture) of the antenna element is changed. Therefore, the state of the antenna element 5 can be changed smoothly.
Furthermore, since the coil spring is in contact with and brought into contact with the connection piece in the direction in which the urging force is exerted, the contact between the coil spring and the connection piece can be ensured satisfactorily over a long period of time. Reliability for connection conduction between the element and the antenna output terminal can be ensured over a long period of time.

The present invention will be described in detail below.
FIGS. 1A and 1B are diagrams showing an embodiment in which the antenna of the present invention is applied to a vehicle-mounted antenna. In FIGS. 1A and 1B, reference numeral 1 denotes a vehicle-mounted antenna. is there. The vehicle-mounted antenna 1 includes a base material 2 attached to a roof of an automobile, a shaft body 3 rotatably held on the base material 2, and a base body 3 held on a peripheral surface of the shaft body 3. The antenna base 4 is provided so as to be rotatable within a predetermined range with respect to 2 and the antenna element 5 provided on the antenna base 4.

  As shown in FIG. 2, the base material 2 is fitted and fixed to a base body 6 composed of a pair of side plates 6b and 6b opposite to the bottom plate 6a and a through hole 6c formed in the side plates 6b and 6b. In addition, the first lid body 7 and the second lid body 8 are configured. The side plates 6b and 6b of the base body 6 are formed in a substantially right triangle shape having the bottom plate 6a as one side, and the through-hole 6c is formed in the vicinity of the side rising from the bottom plate 6a at a substantially right angle. Is. Further, the base body 6 is formed with a regulating wall 6d formed from the bottom plate 6a between the sides of the side plates 6b and 6b that have risen from the bottom plate 6a at a substantially right angle.

  The first lid 7 is made of a resin that is fitted into the through hole 6c of one side plate 6b as shown in FIG. 3 and is fixed by heat welding, adhesion, or the like. As shown in FIG. It is cylindrical, and the inner surface side constitutes a holding surface for holding the shaft body 3. On the inner surface side of the first lid body 7, that is, on the side facing the inner surface side of the side plate 6b of the base body 2, a groove 7a that circulates in the circumferential direction is formed, and the outer peripheral side of the groove 7a is It becomes the 2nd latching | locking part 7b of the circumferential shape which continued with the protrusion shape. In addition, about the cylindrical part 7c used as the inner side of the groove | channel 7a, the structure which this protrudes inside, for example, inserts into the inside of the coil spring mentioned later, and supports this may be sufficient.

  Further, as shown in FIG. 4, the first lid 7 has a protrusion-like engaging portion 7d protruding into the groove 7a on the side surface of the cylindrical portion 7c, in the height direction of the cylindrical portion 7c. It is formed along. The engaging portion 7d has, for example, a semi-cylindrical shape or a bowl shape, and a plurality of engaging portions 7d are formed on the side surface of the cylindrical portion 7c, as shown in FIG. As will be described later, each of the engaging portions 7d is engaged with one end side of the coil spring, thereby defining the state (posture) of the antenna element 5.

  As shown in FIG. 3, the second lid body 8 is made of a resin that is fitted into the through hole 6c of the other side plate 6b of the side plates 6b, 6b and is fixed by heat welding, adhesion, or the like. As shown in FIG. 2, it is substantially cylindrical, and the inner surface side constitutes a holding surface for holding the shaft body 3. On the inner surface side of the second lid body 8, a circumferential second locking portion 8 b is formed on the outer peripheral edge of the second lid body 8. Further, a mounting groove 9 is formed on the inner surface of the second lid 8 from the central portion to the side peripheral surface. The mounting groove 9 is formed so as to open in the side peripheral surface thereof, and the opening in the side peripheral surface communicates with the extraction hole 11 formed in the bottom plate 6a of the base body 6 as shown in FIG. Thus, the second lid body 8 is positioned in the through hole 6c.

  Based on such a configuration, a part of the antenna output terminal 10 is accommodated and attached to the attachment groove 9. The antenna output terminal 10 is made of a metal-made substantially cylindrical connector 10a and a lead wire 10b inserted and connected to one end of the connector 10a. The connector 10a is attached to the inside (center side) of the attachment groove 9, and the lead wire 10b passes through the opening 11 of the bottom plate 6a through the opening on the side opposite to the side connected to the connector 10a. The bottom plate 6a is pulled out to the bottom side.

  The lead wire 10b drawn to the bottom surface side of the bottom plate 6a is peeled off to expose the conductive portion, and in this state is soldered to the bottom surface of the bottom plate 6a. Note that various semiconductor chips (not shown) are provided on the bottom surface of the bottom plate 6a to form a matching circuit and the like. The soldered lead wire 10b is connected to a matching circuit from the soldered portion, and further connected to various devices that require radio waves from the antenna element 5, such as a television and a radio.

  The shaft body 3 held by the base material 2 having such a configuration is made of a substantially cylindrical resin having an internal hole 3a as shown in FIGS. A through hole 3b communicating with the internal hole 3a is formed. The through-hole 3b has a large-diameter portion on the outside and a small-diameter portion on the inside, thereby forming a step portion 3c therebetween. The antenna base portion 4 is held and fixed to the step portion 3c as described later. It is supposed to be.

Further, as shown in FIG. 3, the shaft body 3 has surfaces on both sides thereof held by the base material 2, and the surfaces on both sides of the shaft body 3 are arranged on the outer peripheral side thereof along the outer periphery thereof. A groove-shaped and circumferential first locking portion 3d is formed. These first locking portions 3d are respectively formed on the second locking portion 7b of the first lid body 7 and the second locking portion 8b of the second lid body 8 constituting the base member 2, respectively. It is slidably locked. With such a configuration, the shaft body 3 is held in a state of being sandwiched between the first lid body 7 and the second lid body 8 constituting the substrate 2. Further, the first locking portion 3d is slidable on the second locking portions 7b and 8b, so that the shaft body 3 is held rotatably with respect to the base material 2. It has become a thing.
And especially the 1st latching | locking part 3d and the 2nd latching | locking parts 7b and 8b are slidably latched, and the shaft body 3 and the base material 2 are fully contact | adhered Thus, the sealing property between them becomes good, and a sufficiently high waterproof property can be obtained.

  A coil spring 12 made of a metal such as stainless steel is accommodated and provided in the inner hole 3a of the shaft body 3. The coil spring 12 is formed so that its outer diameter is slightly smaller than the inner diameter of the inner hole 3 a, and the central axis thereof is provided so as to substantially coincide with the rotation axis of the shaft body 3. . Further, the coil spring 12 is formed by being bent so that the respective end portions face the outside in the central axis direction. Then, one end side 12a is inserted into a holding hole 3e formed in the shaft body 3 as shown in FIG. 2 and held and fixed therein, and the other end side 12b is inserted into the second hole as shown in FIG. It is held and fixed to the connector 10 a of the antenna output terminal 10 provided in the mounting groove 9 of the lid body 8, thereby being fixed to the base material 2.

That is, the shaft body 3 is formed with an extending portion (not shown) that covers the outer peripheral side of the inner hole 3a on the side facing the first lid body 7. The holding hole 3e is formed so as to pass through and open outward. On the other hand, one end side 12a of the coil spring 12 is formed longer than the holding hole 3e, thereby extending through the holding hole 3e and into the groove 7a of the first lid 7.
Further, the connector 10a of the antenna output terminal 10 is formed with a mounting hole (not shown) that opens to the inner surface side of the second lid 8 in the mounting groove 9, and the other end side of the coil spring 12 When 12b is inserted into the mounting hole, it is held and fixed to the connector 10a and is conducted therewith.

  Here, in the coil spring 12 of the present embodiment, the coil portion 12c formed by the wire rod is urged outward in the central axis direction by an external force so as to be urged in the compressing direction. When it is done, it is provided between the shaft body 3 and the base material 2 in such a state that it is biased in the compressing direction so as to return to the original state against this. The coil spring 12 of the present embodiment is closely wound so that the wire rod that circulates in the coil portion 12c is in contact with the adjacent wire rods in a state where almost no external force is applied in the central axis direction other than the winding force described later. In this state, the shaft body 3 is accommodated in the inner hole 3a. The bent one end side 12 a is fixed to the holding hole 3 e of the shaft body 3, and the other end side 12 b is fixed to the connector 10 a of the antenna output terminal 10 in the mounting groove 9.

  Further, as shown in FIG. 3, the antenna base 4 is held and fixed to the step 3c of the through hole 3b. The antenna base 4 is held on the peripheral surface of the shaft body 3 by being fixed to the stepped portion 3 c, whereby the shaft body 3 is rotated with respect to the base material 2. It can be rotated within a predetermined range. That is, the antenna base 4 is rotatable with respect to the base material 2 so that the state shown in FIG. 1A is changed to the state shown in FIG.

  As shown in FIGS. 2 and 3, the antenna base 4 includes a cylindrical portion 4 a that is held and fixed on the stepped portion 3 c in a state of being fitted to the large diameter portion of the through hole 3 b, and the cylindrical portion 4 a It consists of a metal screw member 4b held, a connection piece 4c made of metal such as stainless steel fixed to the screw member 4b, and a lid member 4d. The cylindrical part 4a is a cylindrical part formed of resin, and one side thereof is fitted to the large diameter part of the through hole 3b, and is held and fixed to the step part by thermal welding, adhesion, or the like. As shown in FIG. 3, a stepped portion (not shown) is formed in the inner hole, and a screw member 4b is engaged with the stepped portion.

  The screw member 4b forms a female screw, a male screw of the antenna element 5 is screwed to the female screw, and this is fixedly attached. The screw member 4b has a flange portion on the side opposite to the opening side of the female screw, The flange portion is engaged with the step portion of the cylindrical portion 4a and is held and fixed in the inner hole of the cylindrical portion 4a. The screw member 4b has a convex portion on the flange portion side, and the connecting piece 4c is attached to the convex portion, and the connecting piece 4c is held and fixed by caulking. .

  As shown in FIG. 2, the connecting piece 4c has a thin plate shape that is bent in an L shape, and has a hole that engages with the convex portion of the screw member 4b. It is fixed to the member 4b. Further, the side of the connecting piece 4c opposite to the side fixed to the screw member 4b is pulled out from the cylindrical portion 4a and passes through the through hole 3b of the shaft body 3 as shown in FIG. Extends to the inner hole 3a. The side extending to the inner hole 3a is sandwiched between the wire rods of the coil spring 12 accommodated in the inner hole 3a of the shaft body 3 and is held here so as to come into contact with the coil spring 12. ing. Under such a configuration, the connection piece 4c has a function of conducting between the screw member 4b and the coil spring 12 by conducting to the screw member 4b and also to the coil spring 12. ing.

  In addition, since the connection piece 4c is sandwiched between the wire members around the coil spring 12 in this way, the coil spring 12 is partially biased outward in the central axis direction. Therefore, the coil spring 12 is urged in the compressing direction so as to return to the original state against the urging force directed outward in the central axis direction as described above. Since it is provided between 3 and the base material 2, the connection piece 4c is pinched | interposed between wire materials, and comes to be pressed by these wire materials. Therefore, the coil spring 12 and the connection piece 4c are secured in a better state.

The lid member 4d covers the opening of the cylindrical portion 4a on the side of the connection piece 4c, and holds the posture of the portion pulled out from the cylindrical portion 4a of the connection piece 4c in a predetermined state. It is forcibly fitted and fixed in the internal hole of the cylindrical portion 4a.
Although not shown, the antenna element 5 has a male screw on its proximal end side, and this is screwed to the screw member 4b, so that the antenna base 4 is attached to the antenna base 4 as shown in FIGS. It is held and fixed.

  In this in-vehicle antenna 1 having such a configuration, the antenna element 5 is electrically connected to the antenna output terminal 10 through the screw member 4b, the connection piece 4c, and the coil spring 12, and further matched through the antenna output terminal 10. It is connected to a circuit and further connected to various devices such as a television and radio.

  Here, in the present embodiment, the coil spring 12 is in a state in which the coil portion 12c is wound in a predetermined amount in the circumferential direction in advance, that is, in a state where the coil spring 12 is wound in the direction of arrow A in FIG. It is set between. By being wound in this way, the coil spring 12 exhibits a biasing force by a return force in a direction opposite to the direction in which the coil spring 12 is not applied, that is, in the direction of arrow B in FIG. ing. As a result, the other end side 12b is fixed to the base material 2 to be a fixed end, so that the one end side 12a that is fixed to the rotatable shaft body 3 and is a free end becomes the coil portion 12c. It rotates in the direction of rewinding, and the shaft body 3 is rotated in the arrow B direction.

  Then, the antenna base portion 4 fixed to the shaft body 3 comes into contact with the regulation wall 6d of the base body 6 and stops its rotation, and is stably held at this position. That is, since the antenna base 4 is pressed against the restriction wall 6d by receiving the urging force of the coil spring 12, the antenna element 5 is held and fixed to the substrate 2 in a stable state without rattling. is there. The antenna element 5 may be in contact with the regulating wall 6d instead of the antenna base 4. Further, in this embodiment, the position where the antenna base 4 or the antenna element 5 contacts the restriction wall 6d is set at a predetermined position, that is, at a predetermined angle so that the antenna element 5 can efficiently receive a desired radio wave. The position is held in the raised state.

Further, when the antenna element 5 held at such a predetermined position receives an external force in the direction of arrow A in FIG. 6, the coil spring 12 receives the external force to wind the coil portion 12c, and the antenna element 5 is moved to the arrow. By rotating in the A direction, the external force is received.
At this time, as shown in FIG. 5, since the engaging portion 7d is formed on the side surface of the cylindrical portion 7c of the first lid 7, the coil portion 12c is wound by the external force, and the one end side 12a is It rotates in the direction of arrow A. At this time, if the degree of rotation is large, the one end side 12a gets over the engaging portion 7d.

  Thus, when the one end side 12a gets over the engaging portion 7d and then the external force applied to the antenna element 5 is removed, the antenna element 5 is again urged in the arrow B direction by the return force of the coil spring 12. At this time, the one end side 12a of the coil spring 12 is engaged with and held by the engaging portion 7d, so that the antenna element 5 is fixed at a position indicated by P or a position indicated by Q in FIG. .

  Further, after the one end side 12a of the coil spring 12 is engaged with the engaging portion 7d and the antenna element 5 is held and fixed at the position determined by the engaging portion 7d in this way, the antenna element 5 is moved to a predetermined position (desired position). In order to return to the position where the radio wave is efficiently received, the antenna element 5 may be simply urged in the direction of arrow B by hand and rotated. At this time, the click feeling is obtained by the end 12a of the coil spring 12 getting over the engaging portion 7d and being detached therefrom. When the one end side 12a of the coil spring 12 is engaged with the engaging portion 7d as described above, the spring force of the coil spring 12, the height of the engaging portion 7d, etc. are set in advance in order to hold the coil spring 12 at that position. It can be done by setting appropriately.

  In the example shown in FIG. 5, the antenna base 4 is in contact with the regulating wall 6d of the substrate 6, that is, the position indicated by R in FIG. 5 is a predetermined position (a desired radio wave is efficiently received). However, for example, a position indicated by Q in FIG. 5 may be set as a predetermined position, and the position Q may be rotatable on both sides, that is, on both the position P side and the position R side. At that time, if the posture of the antenna element 5 at the position R is to be laid down more, it can be coped with by reducing the height of the restriction wall 6d.

  In order to set the coil spring 12 between the base member 2 and the shaft body 3 in a state where the coil portion 12c is previously wound in the circumferential direction as described above, first, the coil spring 12 is set in the shaft body 3. 12 is inserted, and its one end side 12a is fixed to the holding hole 3e. Next, in this state, the antenna base 4 is fixed to the shaft body 3, and the connection piece 4 c is inserted between the wire members of the coil portion 12 c of the coil spring 12. Next, the shaft body 3 is set between the side plates 6b, 6b of the base body 6, and the second lid body 8 is attached to one side thereof. At that time, the coil spring 12 is wound in a desired amount, and the other end side 12 b of the coil spring 12 is connected to the antenna output terminal 10 of the second lid 8 in this state. Thereafter, the second lid body 8 is put into the through hole 6 c of the base body 6 and the second lid body 8 is fixed to the shaft body 3. The second lid 8 is fixed by using an engaging member such as a knock pin in order to facilitate positioning of the engaging portion 7d, for example, in addition to the thermal welding or bonding as described above. Also good.

  In addition to the methods described above, various methods can be used for setting the coil spring 12. For example, first, the coil spring 12 is inserted into the shaft body 3, and its one end side 12a is fixed to the holding hole 3e. Next, in this state, the shaft body 3 is set between the side plates 6b, 6b of the base body 6, and the second lid body 8 is attached to one side thereof. At that time, the other end 12 b of the coil spring 12 is connected to the antenna output terminal 10 of the second lid 8. Separately from this, the second lid body 8 is put in the through hole 6 c of the base body 6 and fixed to the second lid body 8 on the shaft body 3. Accordingly, the shaft body 3 is rotatably held between the first lid body 7 and the second lid body 8. At this time, by appropriately adjusting the angle between the one end portion 12a and the other end portion 12b of the coil spring 12 in advance, the through hole 3b of the shaft body 3 is formed in the base body main body when the coil spring 12 is not wound. 6 is directed toward the regulating wall 6d or the bottom plate 6a. Next, the shaft body 3 is rotated in the direction in which the coil spring 12 is wound, and the through hole 3b is positioned above the regulating wall 6d (in the direction of arrow A in FIG. 5). In this state, the antenna base portion 4 is fitted into the through hole 3 b of the shaft body 3, and the connection piece 4 c is inserted between the wire members of the coil portion 12 c of the coil spring 12. Thereafter, the antenna base 4 is fixed to the through hole 3b.

The vehicle-mounted antenna 1 configured in this manner efficiently receives a desired radio wave by the antenna element 5 held at a predetermined position (posture) by attaching the base material 2 to, for example, the roof of the vehicle body. Then, it can be transmitted to various devices such as a television and a radio via the antenna output terminal 10.
In addition, the coil spring 12 is used as one member for connecting the antenna element 5 and the antenna output terminal 10, and the coil spring 12 is used for self-returning the state (posture) of the antenna element 5 as in the prior art. Since the coil spring 12 has a plurality of functions, the number of parts can be reduced, thereby improving the assembling property and increasing the productivity.

Further, since the connection between the antenna element 5 and the antenna output terminal 10 is made by the connection between the coil spring 12 and the connection piece 4c, the contact between the coil spring 12 made of a wire and the connection piece 4c. When the antenna element 5 is in line contact, the load generated between the coil spring 12 and the connecting piece 4c when the state (posture) of the antenna element 5 is changed can be made relatively small. Can be changed smoothly.
Furthermore, since the coil spring 12 is in contact with and in contact with the connection piece 4c in the direction of exerting its urging force, the contact between the coil spring 12 and the connection piece 4c can be ensured satisfactorily over a long period of time. Thereby, the reliability of the connection continuity between the antenna element 5 and the antenna output terminal 10 can be ensured over a long period of time.

  Further, since the first locking portion 3d of the shaft body 3 is slidable with respect to the second locking portions 7b and 8b of the lid bodies 7 and 8, respectively, the shaft body 3 and the substrate 2 are provided. Is sufficiently adhered to each other, thereby improving the sealing performance between them. Therefore, since rainwater or the like is prevented from entering the shaft body 3, corrosion of the coil spring 12 accommodated in the shaft body 3 can be satisfactorily prevented.

  The antenna of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the gist of the present invention. For example, in the above-described embodiment, the coil spring 12 is set in a wound state, and the antenna element 5 is self-recovered by using an urging force in a direction in which the coil spring 12 is wound back. The antenna element 5 may be self-returned by setting it in the extended direction and rewinding the original. However, in that case, the coil spring 12 may sag due to long-term use.

  Further, the shaft body 3 and the antenna base 4 are separate parts, and the antenna base 4 is fitted and fixed to the shaft body 3 at the time of the entire assembly. However, the present invention is not limited to this, for example, the shaft The antenna base 4 may be fixed to the body 3 in advance, or may be integrally formed as a single member to further reduce the number of parts.

  However, in this case, since the joining piece 4c is extended in advance into the inner hole 3a of the shaft body 3, in the process of inserting the coil spring 12 into the inner hole 3a of the shaft body 3 in that state. As shown in FIG. 7, the contact between the connection piece 4 c and the coil spring 12 is made particularly between the wire rod on the one end side 12 a side of the coil portion 12 c of the coil spring 12 and the connection piece 4 c. At this time, the coil spring 12 is attached between the shaft body 3 and the base material 2 (second lid body 8) while being compressed inward in the central axis direction. By doing so, the coil spring 12 is provided between the shaft body 3 and the base material 2 in a state in which the coil spring 12 is normally urged, that is, biased outward in the central axis direction. Accordingly, since the connection pieces 4c are in contact with and in contact with each other in the direction in which the urging force of the coil spring 12 is exerted, the contact between the coil springs 12 and the connection pieces 4c is ensured satisfactorily over a long period of time.

  Further, in the above embodiment, the case where the antenna of the present invention is applied to a vehicle is described. However, the present invention is not limited to this. For example, an industrial automatic device such as a robot, It can be used as an antenna for various consumer devices. Further, it can be applied to various antennas for outside the roof.

(A), (b) is a perspective view which shows schematic structure of one Embodiment of the antenna of this invention. It is a disassembled perspective view of the principal part of the antenna shown in FIG. It is a sectional side view of the antenna shown in FIG. It is the principal part perspective view which looked at a part of antenna shown in FIG. It is a schematic diagram for demonstrating operation | movement of the antenna shown in FIG. It is a schematic diagram for demonstrating operation | movement of the antenna shown in FIG. It is a sectional side view which shows schematic structure of other embodiment of the antenna of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Vehicle-mounted antenna (antenna), 2 ... Base material, 3 ... Shaft body, 3a ... Internal hole, 3d ... 1st latching | locking part, 4 ... Antenna base part, 4c ... Connection piece, 5 ... Antenna element, 6 ... Base material body, 6d ... regulating wall, 7 ... first lid, 7b ... second locking portion, 7d ... engaging portion, 8 ... second lid, 8b ... second locking portion, 9 ... Mounting groove, 10 ... antenna output terminal, 12 ... coil spring, 12a ... one end side, 12b ... other end side, 12c ... coil part

Claims (8)

A base member, a shaft body rotatably held on the base member, an antenna base portion held on a peripheral surface of the shaft body and provided to be rotatable within a predetermined range with respect to the base material; and the antenna An antenna element provided at the base,
The antenna base is provided with a connection piece that conducts to the antenna element and extends to the shaft body side,
A coil spring is provided on the shaft body, and a center axis thereof is provided so as to substantially coincide with a rotation axis of the shaft body. The coil spring has one end side fixed to the shaft body and the other end side fixed to the base material. And
The antenna, wherein the coil spring is in contact with the connection piece in a direction in which the urging force is exerted and is connected to an antenna output terminal. The coil spring is provided between the shaft body and the base material in a state of being biased in a compressing direction,
The antenna according to claim 1, wherein the connection piece is in contact with the coil spring in a state of being sandwiched between the wire members around the coil spring. The coil spring is provided between the shaft body and the base material in a state of being biased in the extending direction,
The antenna according to claim 1, wherein the connection piece is in contact with the coil spring in a state where the connection piece is pressed by a wire rod on one end side of the coil spring. The shaft body is provided with a first locking portion on a surface held by the base material,
The holding surface that holds the surface of the shaft body of the base is provided with a second locking portion that is slidably locked with respect to the first locking portion,
The antenna according to any one of claims 1 to 3, wherein the coil spring is housed and provided inside the shaft body.   One end side of the coil spring is detachably engaged with at least one engaging portion provided on the base material as the shaft body rotates, whereby the shaft body rotates with respect to the base material. The antenna according to any one of claims 1 to 4, wherein the antenna is configured to be regulated.   A plurality of the engaging portions are provided, and one of the engaging portions is set so that the shaft body is in a predetermined position with respect to the base material when engaged with one end side of the coil spring. The antenna according to claim 5.   The antenna output terminal is provided on the base material and connected to the other end side of the coil spring; a lead connected to the connector at one end side and drawn to the outer surface side of the base material at the other end side The antenna according to claim 1, comprising a line. The antenna according to any one of claims 1 to 7, wherein the antenna is used in a vehicle.

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