JP6418682B2 - ANTENNA DEVICE AND VEHICLE HAVING THE SAME - Google Patents

Description

  The present invention relates to an antenna device and a vehicle including the antenna device, and more particularly to an antenna device capable of converting a signal of high-frequency energy and a radio wave and a vehicle including the antenna device.

  In recent years, electronic key systems have been installed in vehicles. In the electronic key system, when the user touches the door knob of the vehicle body with the remote control device (hereinafter referred to as a remote control device) carried by the user, the door is automatically unlocked. In the electronic key system, an antenna device is used so that radio waves can be transmitted from the vehicle body to the remote control device.

  This type of antenna device is known to have a configuration in which a coil is wound around a winding groove of a bobbin that houses a core, an exterior case that houses the coil in a recess, and an adhesive that fills the recess in the exterior case. (For example, see Patent Document 1).

  Further, as another antenna device, a configuration including a case main body integrally formed with a housing portion for housing an antenna and a printed board and a connector portion to which a vehicle-side connector is connected is known (for example, see Patent Document 2). reference).

JP 2005-295473 A JP 2006-180436 A

  By the way, the antenna device is required to have a more versatile structure while improving the reliability. The structure of the antenna device of Patent Document 1 and the antenna device of Patent Document 2 is not sufficient. There is a need for improvements.

  The present invention has been made in view of the above-described reasons, and an object of the present invention is to provide an antenna device that is more versatile while improving reliability and a vehicle including the antenna device.

The antenna device of the present invention includes an antenna coil, a case, a connection component, and a filler. The case has a recess for housing the antenna coil. The connection component has a first end electrically connected to the antenna coil. As for the said connection component, the 2nd end part opposite to the said 1st end part protrudes from the said recessed part to the exterior of the said case. The filler seals a part of the connection component housed in the recess and the antenna coil. Furthermore, the antenna device includes a connector portion formed separately from the case. The connector portion has a bottomed cylindrical connector housing. The connector portion is disposed such that the second end portion of the connection component passes through the bottom portion of the connector housing and is exposed inside the connector housing. The case includes a holding portion that holds the connector portion on a side wall that forms the recess. The connector housing is to have a fitting portion which is held by fitting with the holding portion. The holding portion and the fitting portion constitute an inhibition portion that inhibits the filler before curing from leaking from the recess to the outside of the case .
The antenna device of the present invention includes an antenna coil, a case, a connection component, and a filler. The case has a recess for housing the antenna coil. The connection component has a first end electrically connected to the antenna coil. As for the said connection component, the 2nd end part opposite to the said 1st end part protrudes from the said recessed part to the exterior of the said case. The filler seals a part of the connection component housed in the recess and the antenna coil. Furthermore, the antenna device includes a connector portion formed separately from the case. The connector portion has a bottomed cylindrical connector housing. The connector portion is disposed such that the second end portion of the connection component passes through the bottom portion of the connector housing and is exposed inside the connector housing. The case includes a holding portion that holds the connector portion on a side wall that forms the recess, and a cutout portion on the side wall that forms the recess. The connector housing has a fitting portion that is held by fitting with the holding portion. The fitting portion is a flange that protrudes outward from the outer periphery of the connector housing. The holding portion is a guide groove that is provided on the side wall of the peripheral portion of the notch and guides the flange portion of the connector housing. In the connector housing and the case, the first surface of the flange along the direction orthogonal to the thickness direction of the flange is in surface contact with the second surface of the side wall facing the first surface. Is arranged. The connector housing and the case are arranged such that the outer peripheral surface of the flange along the thickness direction of the flange and the inner bottom surface of the guide groove facing the outer peripheral surface of the flange are in surface contact. Has been. A cavity is formed at the contact interface between the first surface of the flange and the second surface of the side wall so as to surround the second end of the connection component. A cavity is formed at the contact interface between the outer peripheral surface of the flange and the inner bottom surface of the guide groove so as to surround the second end portion of the connection component. The first surface and the inner bottom surface are arranged in directions orthogonal to each other.

  A vehicle according to the present invention includes the antenna device described above and a vehicle body provided with the antenna device.

  The antenna device of the present invention can have a more versatile structure while improving reliability.

  The vehicle of the present invention can be configured to include an antenna device with higher versatility while improving reliability.

It is an exploded perspective view explaining the antenna device of an embodiment. It is a rear view which shows the antenna apparatus of embodiment. It is a rear view which shows the principal part of the antenna device of embodiment. It is the perspective view which expanded the principal part of the antenna device of embodiment. It is the perspective view which expanded another principal part of the antenna device of an embodiment. It is sectional drawing explaining the other principal part of the antenna device of embodiment. It is a perspective view of the front side which shows the antenna apparatus of embodiment. It is a side view which shows the antenna apparatus of embodiment. It is a perspective view which shows the principal part of another antenna apparatus of embodiment. It is a mimetic diagram explaining vehicles provided with an antenna device of an embodiment.

  Hereinafter, the antenna device 10 of the present embodiment will be described with reference to FIGS. 1 to 8. In addition, in the figure, the same code | symbol is attached | subjected to the same member and the overlapping description is abbreviate | omitted. The size and positional relationship of the members shown in each drawing may be exaggerated for clarity of explanation. In the following description, each element constituting this embodiment may be configured such that a plurality of elements are constituted by one member and one member also serves as a plurality of elements, and conversely, a plurality of functions of one member are provided. It may be realized by sharing with the members.

  As shown in FIGS. 1 to 3, the antenna device 10 of the present embodiment includes an antenna coil 1, a case 3, a connection component 5, and a filler 4. The case 3 has a recess 3aa that houses the antenna coil 1. The connection component 5 is electrically connected to the antenna coil 1 at the first end 5aa. In the connection component 5, the second end 5ba opposite to the first end 5aa protrudes from the recess 3aa to the outside of the case 3. The filler 4 seals a part of the connection component 5 and the antenna coil 1 housed in the recess 3aa. Further, the antenna device 10 includes a connector portion 6 formed separately from the case 3. The connector part 6 has a bottomed cylindrical connector housing 6a as shown in FIGS. The connector part 6 is arranged such that the second end part 5ba of the connection component 5 passes through the bottom part 6b of the connector housing 6a and is exposed at the inside 6aa of the connector housing 6a. As shown in FIGS. 5 and 6, the case 3 has a holding portion 3 d that holds the connector portion 6 on the side wall 3 a that forms the recess 3 aa. The connector housing 6a has a fitting portion 6d that is held by fitting with the holding portion 3d.

  The antenna device 10 of the present embodiment has a configuration in which the holding portion 3d of the case 3 and the fitting portion 6d of the connector housing 6a are fitted to each other, and the structure is more versatile while improving reliability. it can.

  First, a vehicle 30 in which the antenna device 10 of the present embodiment is used will be described with reference to FIG. In FIG. 10, the electric circuit which electrically connects each structure is illustrated with the thick broken line.

  The vehicle 30 includes the antenna device 10, the control device 32, and the locking device 33a in the vehicle body 30a. The vehicle 30 includes a remote control device 30b carried by the user separately from the vehicle body 30a. The antenna device 10 is connected to the control device 32. The control device 32 is connected to the locking device 33a. The control device 32 may be configured not only to be electrically connected to the antenna device 10 and the locking device 33a by wire, but also to be connected wirelessly. The remote control device 30b is configured to be able to transmit and receive signals with the control device 32 of the vehicle body 30a. The remote control device 30b can be configured to include, for example, a reception unit 35a, a storage unit 35b, a control circuit unit 35c, and a transmission unit 35d. The vehicle 30 can lock and unlock the door 33 by transmitting and receiving signals between the remote control device 30b and the control device 32 of the vehicle body 30a. In the vehicle 30, the remote control device 30b, the antenna device 10, the control device 32, and the locking device 33a constitute an electronic key system. The vehicle 30 is configured to be able to start and stop driving of the engine and motor of the vehicle body 30a by transmitting and receiving signals between the remote control device 30b and the control device 32. The remote control device 30b constitutes an electronic key that can be carried by the user. In the vehicle 30, when the user touches the door knob of the door 33 of the vehicle body 30 a while the user carries the remote control device 30 b, the door 33 can be automatically unlocked or the engine can be started.

  The antenna device 10 is provided separately for the bumper 31a and the center console 31b of the vehicle body 30a. The antenna device 10 is not limited to the configuration provided in the bumper 31a or the center console 31b of the vehicle body 30a. The antenna device 10 may be provided on the door 33, the trunk, the cargo room, the dashboard, or the like of the vehicle body 30a. The vehicle body 30a may be provided with one or more antenna devices 10. The locking device 33 a is provided on the door 33. The locking device 33a is configured to be able to lock and unlock the door 33 by controlling the actuator. The control device 32 can be configured using, for example, an ECU (Electronic Control Unit) mounted on the vehicle body 30a.

  The control device 32 is connected to the antenna device 10 so that a signal can be transmitted by radio waves to the remote control device 30b. Hereinafter, the radio wave transmitted from the antenna device 10 is also referred to as a first transmission wave 30wa. For example, when the vehicle 30 is parked, the control device 32 causes the antenna device 10 to transmit a first transmission wave 30wa including a request signal for requesting a response from the remote control device 30b. For example, the antenna device 10 is configured to be able to transmit the first transmission wave 30wa by radio waves having a frequency of an LF (Low Frequency) band. For example, when the user carrying the remote control device 30b is in an area where the first transmission wave 30wa transmitted from the antenna device 10 can be received, the remote control device 30b receives the first transmission wave 30wa by the reception unit 35a. To do. In the remote control device 30b, in response to a request signal from the control device 32, the control circuit unit 35c transmits a response signal including identification information stored in advance in the storage unit 35b from the transmission unit 35d. The transmission unit 35d transmits the response signal with a radio wave having a frequency in the UHF (Ultra High Frequency) band. Hereinafter, the radio wave from the remote control device 30b is also referred to as a second transmission wave 30wb. For example, the control device 32 may have a structure in which a UHF receiver is incorporated so that a response signal from the remote control device 30b can be received. The control device 32 compares the identification information included in the received response signal with the identification information stored in advance in a storage device built in the control device 32. The control device 32 controls the actuator so that the locking device 33a of the door 33 is unlocked if the identification information of the remote control device 30b matches the identification information stored in the storage device of the vehicle body 30a.

  The antenna device 10 of the present embodiment is configured to transmit the LF band first transmission wave 30wa. The remote control device 30b is configured to transmit the second transmission wave 30wb in the UHF band. Since the antenna device 10 has a lower frequency of radio waves in the LF band than that in the UHF band, the antenna device 10 can finely adjust the electric field strength relatively easily. The vehicle 30 can relatively finely adjust the electric field intensity in the first transmission wave 30wa from the antenna device 10 in the vehicle provided in the center console 31b, thereby suppressing the first transmission wave 30wa from leaking outside the vehicle. be able to. The vehicle 30 performs fine adjustment of the electric field strength in the first transmission wave 30wa from the antenna device 10 as appropriate, so that the remote control device 30b is inside the vehicle even though the remote control device 30b exists outside the vehicle body 30a. It is possible to prevent erroneous detection. The antenna device 10 is not necessarily limited to a configuration that transmits radio waves in the LF band, and may be configured to transmit radio waves in other frequency bands. The antenna device 10 is not limited to being used for transmitting radio waves, but may be used for receiving radio waves. The antenna device 10 may be used for transmitting and receiving radio waves.

  Hereinafter, a more specific configuration of the antenna device 10 will be described.

  The antenna device 10 according to this embodiment includes an electronic component 2 and a sleeve 7 in addition to the antenna coil 1, the case 3, the filler 4, the connection component 5, and the connector portion 6.

  The antenna coil 1 can transmit a high-frequency energy signal input from the outside of the antenna device 10 as a radio wave. The antenna coil 1 is formed by a winding 1a. The winding 1a can be formed by winding an electric wire 1d around a bobbin 1b. For the electric wire 1d, a metal wire whose surface is insulated can be used. For example, a copper wire can be used as the metal wire. The metal wire is coated with an insulating material such as a polyurethane resin, a polyester resin, or a polyimide resin, so that the surface is insulated.

  The bobbin 1b includes a main body 1ba, a first frame 1bb, and a second frame 1bc. The main body 1ba has a rectangular outer shape. The first frame 1bb is provided at one end in the longitudinal direction of the main body 1ba. 1st frame 1bb is formed in the frame shape larger than the external shape of main-body part 1ba. The second frame 1bc is provided at the other end opposite to the one end in the longitudinal direction of the main body 1ba. The second frame 1bc is formed in a frame shape that is larger than the outer shape of the main body 1ba. The bobbin 1b can suppress the movement of the winding 1a wound around the main body 1ba by the first frame 1bb and the second frame 1bc. The bobbin 1b is configured so that the pair of electric wires 1d can be led out from the first frame 1bb side.

  The bobbin 1b can be formed using a resin material, for example. When the resin material is used for the bobbin 1b, the mechanical strength may be increased by blending glass fibers in the resin material. The bobbin 1b can be configured, for example, by blending 30% by weight of glass fiber in a resin material. The glass fiber in the resin material is not limited to 30% by weight, and may be appropriately contained within the range of 5% by weight to 50% by weight. As the resin material of the bobbin 1b, for example, PBT (Poly Butylene Terephthalate) resin, PA (Poly Amide) resin, LCP (Liquid Crystal Plastic) resin, PET (Poly Ethylene Terephthalate) resin and the like can be used.

  The bobbin 1b has a ferrite core 1c inserted through the main body 1ba. The ferrite core 1c is made of a magnetic material. The ferrite core 1c can increase the inductance of the antenna coil 1. The bobbin 1b can be configured to include a protrusion that protrudes into the main body 1ba. The ferrite core 1c is fixed to the bobbin 1b by being pressed by a protrusion in the main body 1ba. The ferrite core 1c is not limited to the configuration in which the ferrite core 1c is pressed by the protrusion in the main body 1ba and is fixed to the bobbin 1b, but may be fixed to the bobbin 1b with an adhesive. The ferrite core 1c has a rectangular parallelepiped outer shape. The ferrite core 1c is formed longer than the bobbin 1b. The ferrite core 1c can be configured using, for example, manganese zinc ferrite, nickel zinc ferrite, copper zinc ferrite, or the like.

  The bobbin 1b is provided so that the coil terminal 5a to be electrically connected to the winding 1a of the antenna coil 1 protrudes from the first frame 1bb. The coil terminal 5a can be formed using a flat metal material. The coil terminal 5a can be formed by performing a punching process, a bending process or a pressing process on a flat metal material. The coil terminal 5a is preferably made of a highly conductive material. As a material of the coil terminal 5a, for example, brass whose surface is plated with Sn can be used. The material of the coil terminal 5a is not limited to brass. The material of the coil terminal 5a can be phosphor bronze, iron-containing copper, brass, copper whose surface is plated with Ag, or the like.

  The coil terminal 5a has a first coil terminal 5a1, a second coil terminal 5a2, and a third coil terminal 5a3. The first coil terminal 5a1 has an I-shaped outer shape in plan view. The second coil terminal 5a2 has an L-shaped outer shape in plan view. The third coil terminal 5a3 has an L-shaped outer shape in plan view. The first coil terminal 5a1, the second coil terminal 5a2, and the third coil terminal 5a3 are provided side by side at a predetermined interval. The third coil terminal 5a3 is provided on the opposite side to the first coil terminal 5a1 via the second coil terminal 5a2.

  The coil terminal 5a includes an insertion portion 5p and a stopper portion 5s. The insertion portion 5p is inserted into an insertion hole provided on the end surface of the first frame 1bb of the bobbin 1b. The stopper portion 5s protrudes in a direction orthogonal to the insertion direction of the insertion portion 5p. The stopper portion 5s restricts the insertion of the insertion portion 5p into the first frame 1bb. The coil terminal 5a can also be configured to include a clamping part 5n. The sandwiching portion 5n is formed by bending a side end edge protruding from one side end of the coil terminal 5a. The sandwiching portion 5n is configured to be able to sandwich the electric wire 1d from the winding 1a. The coil terminal 5a is preferably configured to have a protrusion 5r on the surface. The protrusion 5r can be formed by pressing a metal material that constitutes the coil terminal 5a.

  The first coil terminal 5a1 and the third coil terminal 5a3 are provided with a sandwiching part 5n so that the pair of electric wires 1d from the antenna coil 1 can be sandwiched separately. The sandwiching portion 5n of the first coil terminal 5a1 and the sandwiching portion 5n of the third coil terminal 5a3 are arranged to face each other in plan view. In the antenna device 10, the antenna coil 1, the bobbin 1b, the ferrite core 1c, and the coil terminal 5a constitute a bar antenna. The electronic component 2 is electrically connected to the bar antenna.

  An example of the electronic component 2 is a capacitor 2a. The capacitor 2a can form a resonance circuit together with the antenna coil 1. For example, a ceramic capacitor can be used as the capacitor 2a. The electronic component 2 is not limited to the capacitor 2a, but may be a resistor or an integrated circuit device in addition to the capacitor 2a. The antenna device 10 can constitute an RLC circuit by electrically connecting a resistor, the antenna coil 1 and the capacitor 2a in series or in parallel. The antenna device 10 does not necessarily need to provide the electronic component 2 such as the capacitor 2a or the resistor inside the antenna device 10. The antenna device 10 may have a configuration in which the electronic component 2 is provided outside the antenna device 10. The antenna device 10 can be tuned to radio waves having a predetermined frequency by appropriately setting the capacitance of the capacitor 2a in the RLC circuit. The capacitor 2a is electrically connected to the first coil terminal 5a1 and the second coil terminal 5a2. The first terminal 2a1 of the capacitor 2a is electrically connected to one electric wire 1d of the winding 1a of the antenna coil 1 via the first coil terminal 5a1. The second terminal 2a2 of the capacitor 2a is electrically connected to the second coil terminal 5a2. The capacitor 2a can be joined to the first coil terminal 5a1 and the second coil terminal 5a2 by spot welding. The capacitor 2a may be connected to the first coil terminal 5a1 and the second coil terminal 5a2 not only by spot welding but also by laser welding or soldering.

  The antenna device 10 is a connection piece that electrically connects the first coil terminal 5a1 and the second coil terminal 5a2 instead of electrically connecting the first coil terminal 5a1 and the second coil terminal 5a2 by the capacitor 2a. It is good also as a structure provided with. The connection piece may be formed separately from the first coil terminal 5a1 and the second coil terminal 5a2. The connection piece may be formed integrally with the first coil terminal 5a1 and the second coil terminal 5a2. The antenna device 10 is appropriately formed into a configuration having no connection piece and a configuration having a connection piece due to the difference in the mold for punching the metal material when forming the first coil terminal 5a1 and the second coil terminal 5a2. It can also be divided. When the antenna device 10 electrically connects the first coil terminal 5a1 and the second coil terminal 5a2 with a connecting piece, the antenna coil 1 and the capacitor 2a provided outside the antenna device 10 are electrically connected in series. A resonant circuit may be configured by connecting them in parallel.

  The case 3 includes a case main body 3b and a flange 3f. The case body 3b includes a bottom wall 3h and a side wall 3a. The bottom wall portion 3h has an L-shaped outer shape in plan view. The side wall 3a is provided to extend along the vertical direction with respect to the bottom wall portion 3h so as to surround the bottom wall portion 3h. In the case main body 3b, a region surrounding the bottom wall 3h by the side wall 3a constitutes a recess 3aa. It can be said that the case main body 3b has an L shape in the first box portion 3b1 and the second box portion 3b2 in plan view. The first box portion 3b1 has a rectangular outer shape in plan view. The second box portion 3b2 has a rectangular outer shape in plan view. The first box portion 3b1 is formed in a longer shape than the second box portion 3b2. The second box part 3b2 protrudes from the end of the first box part 3b1 in a direction perpendicular to the longitudinal direction of the first box part 3b1. In the case body 3b, the recess 3aa is configured so that the first box 3b1 and the second box 3b2 are continuous. In the case main body 3b, a first box 3b1 and a second box 3b2 are integrally formed.

  In the case 3, the bobbin 1b around which the winding 1a of the antenna coil 1 is wound is housed in the first box portion 3b1. The case 3 is provided with a notch groove 3bc on the inner surface of the side wall 3a constituting the recess 3aa in the first box portion 3b1. The notch groove 3bc is formed so that the groove width of the notch groove 3bc is slightly larger than the frame width of the first frame body 1bb so that the first frame body 1bb of the bobbin 1b can be guided and stored.

  As shown in FIG. 5, the case 3 includes a restriction portion 3k that protrudes from the bottom wall portion 3h of the recess 3aa in the second box portion 3b2. The restricting portion 3k has a rectangular outer shape in plan view. The restricting portion 3k is provided so as to protrude in a columnar shape from the bottom wall portion 3h of the recess 3aa. The restricting portion 3k is formed in a prismatic shape. The case 3 has a notch 3c in the side wall 3a constituting the recess 3aa in the second box 3b2. The case 3 is configured such that the second end portion 5ba of the connection component 5 can be disposed so as to extend from the recess 3aa to the outside of the case 3 through the notch portion 3c. The case 3 is provided with a holding portion 3d on the side wall 3a of the peripheral portion of the cutout portion 3c. The holding portion 3d includes a guide groove 3g. That is, the guide groove 3g is provided in the peripheral part of the notch 3c in the side wall 3a of the case 3. The holding portion 3d includes a rib 3d1 that protrudes toward the side wall 3a so as to narrow the guide groove 3g. The rib 3d1 has a long outer shape along the depth direction of the recess 3aa.

  A groove 3gg (hereinafter also referred to as a first groove 3gg) is formed on the inner bottom surface 3gs of the guide groove 3g. The first groove portion 3gg is provided along the inner bottom surface 3gs. The notch portion 3c includes a notch groove 3cg similar to the first groove portion 3gg in the guide groove 3g. The case 3 is provided with an opening hole 3gh that opens to the outside on the inner bottom surface 3gs of the guide groove 3g. The opening hole 3gh is provided on the rib 3d1 side of the first groove portion 3gg on the inner bottom surface 3gs of the guide groove 3g. In the guide groove 3g, the inner bottom surface 3gs is preferably U-shaped in a plane orthogonal to the direction in which the second end portion 5ba of the connection component 5 passes through the bottom portion 6b. The guide groove 3g is not limited to the case where the inner bottom surface 3gs has a U-shape, and may have a V-shape with an obtuse angle. The guide groove 3g can facilitate surface contact with the outer peripheral surface 6dr of the flange portion 6da because the inner bottom surface 3gs is U-shaped or the apex angle is V-shaped.

  The case 3 has two or more flange portions 3f attached to the external installation surface at the opening end of the recess 3aa. The flange part 3f protrudes separately from both ends of the first box part 3b1 along the longitudinal direction of the first box part 3b1. The flange portion 3f is provided on the case main body portion 3b so as to protrude outward from the opening end of the recess portion 3aa along the direction perpendicular to the depth direction of the recess portion 3aa. The case 3 can be formed by integrally molding the case main body 3b and the flange 3f. The flange portion 3f includes a through hole 3fb penetrating in the thickness direction perpendicular to the protruding direction protruding from the first box portion 3b1. The flange portion 3f protruding from one end of the first box portion 3b1 has an oval shape in which the through hole 3fb extends along the longitudinal direction of the first box portion 3b1 in plan view. In the flange portion 3f protruding from the other end opposite to the one end of the first box portion 3b1, the through hole 3fb has a circular shape in plan view. The flange portion 3f can be used to attach the case 3 to the installation surface of the vehicle body 30a. The case 3 has a structure in which an attachment screw is inserted into the through hole 3fb of the flange portion 3f and attached to another member such as the bumper 31a of the vehicle body 30a.

  When the case 3 is formed by injection molding, the opening end of the side wall 3a in the long first box portion 3b1 tends to be easily deformed by warping or the like as the case 3 is molded. When the side wall 3a is deformed, the case 3 not only looks bad, but it may be difficult to accommodate the antenna coil 1 in the recess 3aa. Further, when the side wall 3a is deformed, the case 3 may be difficult to be fixed to an external installation surface. Therefore, it is preferable that case main-body part 3b is equipped with the hollow part 3bb which hollowed the opening end of the side wall 3a in the 1st box part 3b1 to the bottom wall part 3h side.

  The case 3 can be formed of a molded product of a resin material. The case 3 can be formed of, for example, a thermoplastic resin material. By forming the case 3 by injection molding of a resin material, a complicated shape can be formed relatively easily. Case 3 can be formed using, for example, a PBT resin. The case 3 can be configured to include glass fibers. The case 3 can be configured to include, for example, 30% by weight of glass fiber in a resin material. The glass fiber in the resin material is not limited to 30% by weight, and may be appropriately contained within a range of 5% by weight to 50% by weight. The case 3 can increase the mechanical strength by including a glass fiber. The material of the case 3 is not limited to PBT resin, and for example, PA resin, LCP resin, PET resin, phenol resin, ABS (acrylonitrile butadiene styrene) resin, PP (polypropylene) resin, or the like may be used.

  The filler 4 can be formed by potting the filling resin and curing the filling resin. Filler 4 is formed so as to seal antenna coil 1 arranged in recess 3aa. The filler 4 can secure the waterproof function of the antenna device 10 by sealing the antenna coil 1, the electronic component 2, and the connection component 5. The filler 4 increases the mechanical strength of the antenna device 10 and can make it difficult for the antenna coil 1 and the electronic component 2 to be damaged by the external force even when an external force is applied to the antenna device 10. As the filler 4, for example, a silicone resin or a urethane resin can be used. The filler 4 only needs to be able to seal the antenna coil 1 housed in the recess 3aa, a part of the connector terminal 5b constituting the electronic component 2 and the connection component 5, and the coil terminal 5a. The filler 4 may be formed by filling the concave portion 3aa with an appropriate amount of filling resin so as to seal the antenna coil 1 or the like, and curing it. However, if the amount of the filling resin is too small, the antenna coil 1 etc. are not sealed. Further, the filler 4 forms an unnecessary filler 4 if the amount of the filling resin filling the recess 3aa is too large. The antenna device 10 is preferably formed by filling the recess 3aa with an appropriate set amount of filling resin by potting or the like.

  In the antenna device 10, even when an appropriate set amount of filling resin is mechanically potted, the filling amount of the filling resin may vary. In the antenna device 10 of the present embodiment, the restricting portion 3k protruding from the bottom wall portion 3h of the recess 3aa can be used as a guide for the filling amount of the filling resin. In the assembly process of the antenna device 10, the regulating unit 3 k can be used for determining whether or not the filling resin or the filling material 4 is an appropriate set amount by visual inspection or an inspection device.

  The connection component 5 is used to electrically connect the antenna coil 1 inside the antenna device 10 and the outside of the antenna device 10. The connection component 5 includes a first end 5aa and a second end 5ba. As for the connection component 5, 1st end part 5aa and 2nd end part 5ba are electrically connected. In the antenna device 10 of the present embodiment, the first end 5aa constitutes the coil terminal 5a. In the antenna device 10, the second end 5ba constitutes a connector terminal 5b. The coil terminal 5a is configured to be electrically connected to the electric wire 1d in the winding 1a of the antenna coil 1. The connector terminal 5b is configured to be electrically connected to the control device 32 via a plug portion outside the antenna device 10. The connection component 5 may be configured only by the coil terminal 5a and the connector terminal 5b, or may be configured by a conductor that electrically connects the coil terminal 5a and the connector terminal 5b.

  The connecting component 5 need only have two or more coil terminals 5a as well as a configuration including the three coil terminals 5a of the first coil terminal 5a1, the second coil terminal 5a2, and the third coil terminal 5a3. The connection component 5 includes two connector terminals 5b including a first connector terminal 5b1 and a second connector terminal 5b2. The connector terminal 5b constitutes a connection conductor that is connected to the coil terminal 5a. That is, the connection component 5 has a pair of connection conductors. The first connector terminal 5b1 has a pin shape at the tip. The shape of the tip can be various shapes depending on the shape and structure of the plug portion to be coupled with the connector portion 6 constituting the receptacle. The first connector terminal 5b1 includes two or more bent portions 5w that bend. The first connector terminal 5b1 is provided with a bent portion 5w, so that the first connector terminal 5b1 is formed in an L-shaped outer shape in plan view. The first connector terminal 5b1 is provided with a bent portion 5w so as to surround the side of the rectangular regulating portion 3k in plan view. Similar to the first connector terminal 5b1, the second connector terminal 5b2 has a pin shape at the tip. The second connector terminal 5b2 includes two or more bent portions 5w that bend. The second connector terminal 5b2 is provided with a bent portion 5w, so that it is formed in an L-shaped outer shape in plan view. The second connector terminal 5b2 is provided with a bent portion 5w so as to surround the side of the rectangular regulating portion 3k in plan view. Each of the pair of connection conductors constituting the connector terminal 5b has two or more bent portions 5w to be bent. The pair of connecting conductors constituting the connector terminal 5b are provided with bent portions 5w so as to surround each side of the rectangular regulating portion 3k in plan view. In other words, it is preferable that the restricting portion 3k is disposed between the pair of connection conductors in plan view. The antenna device 10 ensures the electrical insulation between the pair of connection conductors even when the connection conductor moves for some reason by arranging the restricting portion 3k between the pair of connection conductors. Is possible.

  Of the connecting components 5, the connector terminal 5b has an abutting portion 5k that abuts against the restricting portion 3k. Since the connecting part 5 has the abutting part 5k that abuts against the restricting part 3k, some force is exerted so that the connecting part 5 is pushed into the recess 3aa such as when the plug part is connected to the connector part 6. Even in such a case, it is possible to suppress the movement of the connection component 5. That is, the case 3 has a restricting portion 3k that restricts the movement of the connecting component 5 from the outside to the recess 3aa along the direction in which the connecting component 5 passes through the bottom 6b.

  The connector terminal 5b can use a flat metal material. The connector terminal 5b can be formed by punching or bending a flat metal material. The connector terminal 5b is preferably made of a highly conductive material. As a material of the connector terminal 5b, for example, brass whose surface is plated with Sn can be used. The material of the connector terminal 5b is not limited to brass. As the material of the connector terminal 5b, phosphor bronze, iron-containing copper, brass, copper whose surface is plated with Ag, or the like can be used. The material of the connector terminal 5b may be the same as the material of the coil terminal 5a, or a different material may be used.

  The connection component 5 can perform spot welding in order to connect the coil terminal 5a which is the first end portion 5aa and the connector terminal 5b which is the second end portion 5ba. Spot welding can be performed by passing an electric current in a state where the first end 5aa and the second end 5ba are sandwiched between a pair of electrodes of a spot welder. The first end portion 5aa is preferably provided with a protruding portion 5r in order to perform welding with the second end portion 5ba. The protrusion 5r is not limited to the configuration provided at the first end 5aa, but may be provided at the second end 5ba. In the antenna device 10 of the present embodiment, the first connector terminal 5b1 is joined to the third coil terminal 5a3 by spot welding at the end opposite to the pin-shaped tip. The second connector terminal 5b2 is joined to the second coil terminal 5a2 by spot welding at the end opposite to the pin-shaped tip. The 2nd coil terminal 5a2 is provided with the protrusion part 5r which welds with the 2nd connector terminal 5b2. The third coil terminal 5a3 includes a protruding portion 5r that performs welding with the first connector terminal 5b1. The antenna device 10 is not limited to the configuration in which the first end portion 5aa and the second end portion 5ba are joined by spot welding, and may be connected by soldering or laser welding.

  The connector part 6 includes a bottomed rectangular tube-shaped connector housing 6a. The connector portion 6 includes a connector terminal 5b as a second end portion 5ba constituting the connection component 5. The bottomed rectangular tube-shaped connector housing 6a is provided with a plurality of connector terminals 5b on the bottom 6b. The connector terminal 5b penetrates the bottom 6b. The connector terminal 5b has a pin-shaped tip housed in the interior 6aa of the connector housing 6a. The connector terminal 5b has an end opposite to the tip exposed to the outside of the connector housing 6a. The connector housing 6a has a fitting portion 6d that is held by fitting with the holding portion 3d. The antenna device 10 is configured so that the connector housing 6a can be fitted into the case 3 along the direction of the white arrow shown in FIG. The fitting portion 6d is a flange portion 6da that protrudes outward from the outer periphery 6ab of the connector housing 6a. The connector housing 6a includes an extending portion 6g provided so as to extend outwardly opposite to the holding portion 3d via the fitting portion 6d along the direction in which the holding portion 3d and the fitting portion 6d are fitted. It is preferable to have. The connector housing 6a may have a plurality of extending portions 6g or may have one extending portion 6g.

  The extending portion 6g is formed thicker than the flange portion 6da in the direction in which the connecting component 5 passes through the bottom portion 6b. As shown in FIG. 6, the extending portion 6g preferably has a first thickness 6gw of the extending portion 6g larger than a second thickness 6dw of the flange portion 6da. As shown in FIG. 8, the extending portion 6g is configured such that an end surface 6ga opposite to the flange portion 6da is flush with the mounting surface 3fa of the flange portion 3f in the direction along the depth direction of the recessed portion 3aa. It is preferable. In the antenna device 10, the end surface 6ga and the mounting surface 3fa are flush with each other, so that even when an external force is applied to the case 3, the force can be dispersed to increase the withstand voltage. In particular, the antenna device 10 includes the extending portion 6g, thereby improving the pressure resistance against external force even when there is a space between the recessed portion 3bb where the side wall 3a of the case 3 is recessed and the external installation surface. Is possible. Further, the antenna device 10 has a load applied to the connector portion 6 when the plug portion is connected to the connector portion 6 separate from the case 3 by making the end surface 6ga and the mounting surface 3fa flush with each other. The deformation of the case 3 can also be suppressed. The extending portion 6g has an end surface 6ga opposite to the flange portion 6da in the direction along the depth direction of the recessed portion 3aa so that it is closer to the bottom wall portion 3h of the recessed portion 3aa than the mounting surface 3fa of the flange portion 3f. It may be configured. The antenna device 10 can be configured such that the extending portion 6g does not come into contact with the installation surface when the end surface 6ga is closer to the bottom wall portion 3h of the recess 3aa than the mounting surface 3fa of the flange portion 3f. The antenna device 10 has a configuration in which the end surface 6ga is closer to the bottom wall portion 3h of the recess 3aa than the mounting surface 3fa of the flange portion 3f, so that the extension portion 6g can suppress transmission of vibration from the installation surface side. It becomes. The extending portion 6g is configured such that, in the direction along the depth direction of the recessed portion 3aa, the end surface 6ga opposite to the flange portion 6da is separated from the bottom wall portion 3h of the recessed portion 3aa from the mounting surface 3fa of the flange portion 3f. It can also be. When the antenna device 10 has a configuration in which the end surface 6ga is separated from the bottom wall portion 3h of the recess 3aa from the attachment surface 3fa of the flange portion 3f, the extending portion 6g and the installation surface come into contact with each other to enhance the close contact with the installation surface. It becomes possible.

  As shown in FIGS. 6 and 7, the connector housing 6 a has a claw portion 6 n at the tip of the flange portion 6 da so that the case 3 and the connector portion 6 can be prevented from coming off. The claw portion 6 n is configured to be inserted into an opening 3 gh provided in the case 3 so as to be engaged with the case 3. The claw portion 6n is not limited to being provided on the connector housing 6a as long as the holding portion 3d and the fitting portion 6d can be locked, and may be provided on the case 3. That is, in the antenna device 10, it is preferable that at least one of the holding portion 3d and the fitting portion 6d has a claw portion 6n for engaging the holding portion 3d and the fitting portion 6d. The antenna device 10 can prevent the case 3 and the connector portion 6 from coming off with a relatively simple configuration having the claw portion 6n.

The connector portion 6 is configured by press-fitting the second end portion 5ba into a second through hole 6ba provided in the bottom portion 6b of the connector housing 6a shown in FIG. The opening shape of the second through hole 6ba is slightly smaller than the cross section perpendicular to the direction through which the second end portion 5ba penetrates so that the second end portion 5ba can be press-fitted and fixed. The connector portion 6 is configured such that the opening shape of the second through hole 6ba is slightly smaller than the cross section perpendicular to the direction through which the second end portion 5ba passes, so that the unfilled filler 4 that is a filling resin can be removed from the recess 3aa. The housing 6a is configured not to leak into the interior 6aa. The connector portion 6 is not limited to a structure that is integrally configured by press-fitting the second end portion 5ba into the connector housing 6a. The connector part 6 can also form the 2nd end part 5ba by integral molding by insert molding. The connector portion 6 is manufactured by forming the second end portion 5ba integrally with the connector housing 6a by press-fitting as compared with the case where the second end portion 5ba is formed integrally with the connector housing 6a by insert molding. Can be simplified.

  The connector housing 6a can be formed using, for example, a resin material. In the case where a resin material is used for the connector housing 6a, the mechanical strength may be increased by mixing glass fibers in the resin material. The connector housing 6a can be configured, for example, by mixing 30% by weight of glass fiber in a resin material. The glass fiber in the resin material is not limited to 30% by weight, and may be appropriately contained within a range of 5% by weight to 50% by weight. As the resin material of the connector housing 6a, for example, PBT resin, PA resin, LCP resin, PET resin, phenol resin, ABS resin, PP resin, or the like can be used. The connector housing 6 a can be formed using the same resin material as the case 3. The connector housing 6a is not limited to the case where the same resin material as that of the case 3 is used, and can be formed using another resin material.

  The sleeve 7 has a C-shaped outer shape so as to be accommodated in a through hole 3fb provided in the flange portion 3f. The sleeve 7 should just be formed in the external shape matched with the shape of the inner periphery of 3 fb of through-holes. The sleeve 7 is configured such that when the antenna device 10 is fixed to the installation surface 30aa of the external vehicle body 30a, the flange portion 3f can be prevented from being deformed by tightening with a mounting screw. As a material of the sleeve 7, for example, iron or stainless steel that has been plated can be used.

  Below, the antenna apparatus 10 is demonstrated compared with the antenna apparatus of a comparative example.

  The antenna device of the comparative example compared with the antenna device 10 of the present embodiment is formed in the same configuration as that of the present embodiment except that the case and the connector portion are integrally formed. In the antenna device of the comparative example, since the connector portion is integrally formed with the case, the connection component and the connector housing are integrally formed by insert molding.

  On the other hand, as a specific structure, the antenna device 10 of the present embodiment is provided with a guide groove 3g for guiding the flange portion 6da of the connector housing 6a on the peripheral portion of the notch portion 3c in the side wall 3a. The case 3 and the connector housing 6a are fitted into the guide groove 3g so that the connecting part 5 protrudes from the recess 3aa to the outside of the case 3 through the notch 3c. The connector housing 6a is disposed such that the outer peripheral surface 6dr of the flange portion 6da is in surface contact with the inner bottom surface 3gs of the guide groove 3g. The antenna device 10 can select the connector portion 6 according to the shape of the plug portion on the vehicle 30 side by the fitting structure between the case 3 and the connector portion 6 formed separately. It can be commonly used for the connector part 6. The antenna device 10 of the present embodiment has a structure in which the holding portion 3d of the case 3 and the fitting portion 6d of the connector housing 6a are held by fitting, and the coupling strength between the case 3 and the connector portion 6 is increased. be able to. Further, the antenna device 10 can be configured to share the case 3 and change the type of the connector portion 6 shown in FIGS. 1 and 9. The antenna device 10 can be configured without the need to form the case 3, the connector portion 6, and the connecting component 5 by insert molding by the configuration including the connector portion 6 formed separately from the case 3. The antenna device 10 can suppress a decrease in manufacturing yield as compared with the antenna device of the comparative example in which the case, the connector portion, and the connection component are integrally formed by insert molding.

  In the antenna device of the comparative example, when the case and the connector portion are formed by integral molding by insert molding, the structure of the case and the connector portion is complicated and it is necessary to form the connection component by insert molding. Therefore, in the antenna device of the comparative example, it is necessary to manufacture a mold for the entire case for each type of connector. Moreover, in the antenna device of a comparative example, since insert molding with many processes is used for manufacture of a case or a connector part, it exists in the tendency for it to be difficult to suppress manufacturing cost.

  By the way, in the antenna device 10, the antenna coil 1, the capacitor 2 a, and the connection component 5 housed in the recess 3 aa of the case 3 are sealed with the filler 4 to improve reliability. In the antenna device 10, the filling material 4 before curing is filled in the recess 3 aa of the case 3 by potting. In the antenna device 10, the filler 4 is formed in the recess 3 aa in which the antenna coil 1 is housed, so that even when an external force or vibration of the vehicle 30 is applied to the antenna device 10, the antenna coil 1 or the electronic component accompanying external force or vibration 2 can be prevented from occurring. The antenna device 10 can enhance the electrical insulation of the antenna coil 1 and the capacitor 2a disposed in the recess 3aa by forming the filler 4 in the recess 3aa in which the antenna coil 1 is housed.

  However, in the antenna device 10 in which the case 3 and the connector portion 6 are simply formed separately, the filling material 4 before curing is formed in the concave portion 3aa via the coupling portion between the connector portion 6 and the case 3 depending on manufacturing conditions. Leakage from the inside to the outside of the case 3 is also conceivable. Therefore, in the antenna device 10, it is preferable that the holding portion 3 d and the fitting portion 6 d constitute an inhibition portion 10 h that inhibits the filler 4 before curing from leaking from the recess 3 aa to the outside of the case 3. The antenna device 10 has a relatively simple configuration in which the holding portion 3d and the fitting portion 6d constitute the blocking portion 10h, and can have a more reliable structure.

  The hindering part 10h can be configured by a surface contact between one surface of the holding part 3d and the facing surface of the fitting part 6d facing the one surface. The connector housing 6a and the case 3 include a first surface 6ds of the flange portion 6da along a direction orthogonal to the thickness direction of the flange portion 6da, and a side surface 3a of the peripheral portion of the cutout portion 3c facing the first surface 6ds. It arrange | positions so that the 2nd surface 3as may surface-contact. Similarly, the connector housing 6a and the case 3 are formed by the outer peripheral surface 6dr of the flange portion 6da along the thickness direction of the flange portion 6da and the inner bottom surface 3gs of the guide groove 3g facing the outer peripheral surface 6dr of the flange portion 6da. It is arranged to touch. In the antenna device 10 of the present embodiment, examples of the one surface of the holding portion 3d include the second surface 3as of the side wall 3a and the inner bottom surface 3gs of the guide groove 3g. Further, in the antenna device 10 of the present embodiment, the first surface 6ds and the outer peripheral surface 6dr of the flange portion 6da can be cited as the facing surface of the fitting portion 6d. The antenna device 10 has a relatively simple structure in which the first surface 6ds and the second surface 3as are in surface contact, or the outer peripheral surface 6dr and the inner bottom surface 3gs are in surface contact, and the antenna device 10 has a more reliable structure. It becomes possible.

  The inhibiting portion 10h is a suppressing portion 10r that suppresses capillary action at the interface between the second surface 3as, which is one surface of the holding portion 3d, and the first surface 6ds, which is the opposite surface of the fitting portion 6d, of the filler 4 before curing. It is preferable to have. Since the antenna device 10 includes the suppressing portion 10r, it is possible to prevent the unfilled filler 4 from leaking from the recess 3aa to the outside of the case 3 due to capillary action. The suppressing portion 10r is preferably a space surrounded by the first groove portion 3gg formed on the inner bottom surface 3gs, which is one surface of the holding portion 3d, and the outer peripheral surface 6dr that is the facing surface of the fitting portion 6d. More specifically, a cavity may be formed at the contact interface between the first surface 6ds of the flange portion 6da and the second surface 3as of the side wall 3a so as to surround the second end portion 5ba of the connection component 5. preferable. Further, the suppressing portion 10r is a groove 6dg (hereinafter, also referred to as a second groove 6dg) formed on the second surface 3as, which is one surface of the holding portion 3d, and the first surface 6ds, which is a facing surface of the fitting portion 6d. It can also be a space surrounded by. More specifically, a cavity is preferably formed at the contact interface between the outer peripheral surface 6dr of the flange portion 6da and the inner bottom surface 3gs of the guide groove 3g so as to surround the second end portion 5ba of the connection component 5. . Thereby, even when the filler 4 before curing leaks from the recess 3aa toward the outside of the antenna device 10 due to the capillary phenomenon, the antenna device 10 creates a space that weakens the surface tension of the filler 4 before curing. It can function as the suppression unit 10r.

  The antenna device 10 surrounds the second end portion 5ba of the connection component 5 at the contact interface between the first surface 6ds of the flange portion 6da and the second surface 3as of the side wall 3a in order to suppress capillary action during manufacture. It is preferable to have a cavity formed as described above. The cavity may be a space surrounded by the second groove 6dg formed in the first surface 6ds of the flange portion 6da and the second surface 3as of the side wall 3a. The cavity may be a space surrounded by the first surface 6ds of the flange 6da and the groove formed on the second surface 3as of the side wall 3a. The cavity only needs to be able to form a space at the contact interface between the first surface 6ds of the flange portion 6da and the second surface 3as of the side wall 3a. It is also possible to use a configuration that uses. Similarly, when the antenna device 10 is manufactured, the second end portion 5ba of the connection component 5 is provided at the contact interface between the outer peripheral surface 6dr of the flange portion 6da and the inner bottom surface 3gs of the guide groove 3g in order to suppress capillary action. It is preferable to have a cavity formed so as to surround. The cavity may be a space surrounded by the first groove portion 3gg formed on the inner bottom surface 3gs of the guide groove 3g and the outer peripheral surface 6dr of the flange portion 6da. The space may be a space surrounded by the inner bottom surface 3gs of the guide groove 3g and the groove portion formed on the outer peripheral surface 6dr of the flange portion 6da. The cavity only needs to be able to form a space at the contact interface between the inner bottom surface 3gs of the guide groove 3g and the outer peripheral surface 6dr of the flange portion 6da, and not only a configuration using a groove but also a plurality of concave portions arranged appropriately. A configuration to be used may be used.

  In other words, in the antenna device 10 of the present embodiment, the case 3 has the notch 3c in the side wall 3a constituting the recess 3aa. The fitting portion 6d is a flange portion 6da that protrudes outward from the outer periphery of the connector housing 6a. 3 d of holding | maintenance parts are provided in the side wall 3a of the peripheral part of the notch part 3c. The holding portion 3d is a guide groove 3g that guides the flange portion 6da of the connector housing 6a. The connector housing 6a and the case 3 are in surface contact with the first surface 6ds of the flange portion 6da along the direction orthogonal to the thickness direction of the flange portion 6da and the second surface 3as of the side wall 3a facing the first surface 6ds. To be arranged. The connector housing 6a and the case 3 are in surface contact with the outer peripheral surface 6dr of the flange portion 6da along the thickness direction of the flange portion 6da and the inner bottom surface 3gs of the guide groove 3g facing the outer peripheral surface 6dr of the flange portion 6da. Is arranged. A cavity is formed at the contact interface between the first surface 6ds of the flange portion 6da and the second surface 3as of the side wall 3a so as to surround the second end portion 5ba of the connection component 5. A cavity is formed at the contact interface between the outer peripheral surface 6dr of the flange portion 6da and the inner bottom surface 3gs of the guide groove 3g so as to surround the second end portion 5ba of the connection component 5. The first surface 6ds and the inner bottom surface 3gs are preferably arranged in directions orthogonal to each other. Since the antenna device 10 has the first surface 6ds and the inner bottom surface 3gs arranged in directions orthogonal to each other, it is possible to make the structure more versatile while further improving the reliability.

  Below, the assembly process of the antenna apparatus 10 is demonstrated easily.

  In the assembly process of the antenna device 10, the connector portion 6 formed by press-fitting the connector terminal 5b of the connection component 5 into the connector housing 6a is prepared in advance.

  In the assembly process, the coil terminal 5a is press-fitted into the first frame 1bb of the bobbin 1b. On the bobbin 1b, three coil terminals 5a protrude from the first frame 1bb. In the assembly process, the wire 1d is formed by winding the wire 1d around the main body 1ba of the bobbin 1b. The electric wire 1d led out from the winding 1a is crimped so as to be pinched by the pinching portion 5n of the coil terminal 5a.

  Next, in the assembly process, spot welding of the first terminal 2a1 and the second terminal 2a2 of the capacitor 2a and the coil terminal 5a is performed. In the assembly process, spot welding is performed between the coil terminal 5 a protruding from the bobbin 1 b and the connector terminal 5 b in the connector portion 6. In the assembly process, spot welding is performed after the end of the first connector terminal 5b1 is disposed so as to overlap the protruding portion 5r of the third coil terminal 5a3. Similarly, in the assembly process, spot welding is performed after the end of the second connector terminal 5b2 is disposed so as to overlap the protruding portion 5r of the second coil terminal 5a2.

  Subsequently, in the assembly process, the ferrite core 1c is press-fitted into the main body 1ba of the bobbin 1b to form a bar antenna. In the assembly process, the inductance of the bar antenna can be adjusted by moving the ferrite core 1c relative to the bobbin 1b.

  Next, in the assembly process, the bar antenna is accommodated in the recess 3aa of the case 3 by fitting the connector housing 6a and the case 3 together. In the connector housing 6a, the flange portion 6da is guided in the guide groove 3g of the case 3, and the flange portion 6da is accommodated in the guide groove 3g. The connector housing 6a and the case 3 are opposed to the first surface 6ds and the first surface 6ds of the flange 6da along the direction orthogonal to the thickness direction of the flange 6da by fitting the connector housing 6a and the case 3 together. It arrange | positions so that the 2nd surface 3as of the side wall 3a to perform surface contact. The connector housing 6a is pressed against the side wall 3a by the rib 3d1 of the case 3 so that the first surface 6ds and the second surface 3as are in close contact with each other. The connector housing 6a and the case 3 are in surface contact with the outer peripheral surface 6dr of the flange portion 6da along the thickness direction of the flange portion 6da and the inner bottom surface 3gs of the guide groove 3g facing the outer peripheral surface 6dr of the flange portion 6da. Placed in. In the connector housing 6a, the flange portion 6da is pressed against the side wall 3a by the claw portion 6n of the flange portion 6da so that the outer peripheral surface 6dr and the inner bottom surface 3gs are in close contact with each other.

  In the assembly process, the first connector terminal 5b1 and the second connector terminal 5b2 are arranged so as to surround each side of the rectangular regulating portion 3k by fitting the connector housing 6a and the case 3 together. The first connector terminal 5b1 and the second connector terminal 5b2 are configured such that a slight gap is generated between the contact portion 5k and the restricting portion 3k in a state where the connector housing 6a and the case 3 are fitted together. . The first connector terminal 5b1 and the second connector terminal 5b2 are configured such that a slight gap is generated between the contact portion 5k and the restricting portion 3k, so that the connector housing 6a and the case 3 are fitted together. It can be done smoothly. The first connector terminal 5b1 and the second connector terminal 5b2 may be configured such that the contact portion 5k and the restriction portion 3k contact each other in a state where the connector housing 6a and the case 3 are fitted together.

  Next, in the assembly process, in a state where the antenna coil 1 is disposed in the recess 3aa of the case 3, the filling resin that becomes the filler 4 is filled by potting so as to seal the recess 3aa of the case 3. The filler 4 is filled with a filling resin so that the surface 4aa exposed in the recess 3aa is flush with the tip surface 3ka of the restricting portion 3k. Here, the flushness is not limited to the case where the surface 4aa of the formed filler 4 and the tip end surface 3ka of the restricting portion 3k form the same horizontal plane. If the surface 4aa of the formed filling material 4 covers the antenna coil 1, the electronic component 2, and the connection component 5, the same level includes the case where the surface is slightly lower than the tip surface 3ka of the restricting portion 3k. In addition, even when the surface 4aa of the formed filler 4 slightly covers the tip surface 3ka of the restricting portion 3k, the same level includes the case where the tip surface 3ka can be grasped from the outside. In the antenna device 10, even when an appropriate set amount of filling resin is mechanically potted, the filling amount of the filling resin may vary. When the filling amount of the filling material 4 before curing filled in the concave portion 3aa is large, the antenna device 10 not only wastes the filling material 4, but also easily flows out of the case main body 3b to the outside, and has poor appearance and electrical characteristics. May cause a poor connection. The antenna device 10 protects the antenna coil 1 and the electronic component 2 without covering the antenna coil 1 and the electronic component 2 with the filler 4 when the filling amount of the filling material 4 before curing filled in the recess 3aa is small. Tend to be difficult. In the antenna device 10 of the present embodiment, the restricting portion 3k protruding from the bottom wall portion 3h of the recess 3aa is used as a guide for the filling amount of the filling resin. The regulation part 3k can be used as a guideline for determining whether the set filler 4 is properly formed.

  Subsequently, in the assembly process, the filling material 4 is formed by curing the filling resin potted in the recess 3aa. Curing of the filling resin may be natural curing, or may be appropriately performed according to the material such as optical coupling curing by ultraviolet irradiation or thermosetting.

The assembled antenna device 10 is provided on a bumper 31a of a vehicle body 30a such as an automobile, for example, as shown in FIG. The antenna device 10 is configured to be able to transmit LF band radio waves to the remote control device 30b. In other words, the vehicle 30 is configured to include the above-described antenna device 10 and the vehicle body 30a on which the antenna device 10 is provided. Remote control device 30b, the user carrying the remote control device 30b approaches the vehicle body 30a, and receives radio waves in the LF band from the antenna device 10, which transmits radio waves in the UHF band to the vehicle body 30a. In the vehicle body 30a, the control device 32 receives the UHF band radio wave from the remote control device 30b. The control device 32 controls the locking device 33a to automatically unlock the door 33. The electronic key system is configured such that a response signal from the remote control device 30b is processed by a microcomputer, and a motor is moved by an electric signal from the microcomputer to unlock or lock the door 33.

DESCRIPTION OF SYMBOLS 1 Antenna coil 3 Case 3a Side wall 3aa Recessed part 3as 2nd surface 3c Notch part 3d Holding part 3g Guide groove 3gg Groove part (1st groove part)
3gs inner bottom surface 4 filler 5 connecting part 5aa first end portion 5ba second end portion 6 connector portion 6a connector housing 6aa inside 6ab outer periphery 6b bottom portion 6d fitting portion 6da collar portion 6dg groove portion (second groove portion)
6dr outer peripheral surface 6ds 1st surface 10 antenna device 10h inhibition unit 10r suppression unit 30 vehicle 30a vehicle body

Claims (8)

An antenna coil, a case having a recess for storing the antenna coil, a first end electrically connected to the antenna coil, and a second end opposite to the first end from the recess to the outside of the case A connecting part protruding to the part, a part of the connecting part housed in the recess and a filler for sealing the antenna coil,
Furthermore, it has a connector part formed separately from the case,
The connector portion has a bottomed cylindrical connector housing, and is arranged such that the second end portion of the connection component passes through the bottom portion of the connector housing and is exposed inside the connector housing.
The case has a holding part that holds the connector part on a side wall that forms the concave part,
The connector housing may have a fitting portion which is held by fitting said holding portion,
The antenna unit according to claim 1, wherein the holding portion and the fitting portion constitute an inhibition portion that inhibits the filler before curing from leaking from the recess to the outside of the case .   2. The antenna device according to claim 1, wherein the inhibition part is configured by surface contact between one surface of the holding part and a facing surface of the fitting part that faces the one surface.   The said inhibition part has the suppression part which the said filler before hardening has a suppression part which suppresses a capillary phenomenon in the interface of the said one surface of the said holding | maintenance part, and the said opposing surface of the said fitting part, It is characterized by the above-mentioned. The antenna device described.   The antenna device according to claim 3, wherein the suppressing portion is a space surrounded by a groove portion formed on the one surface of the holding portion and the facing surface of the fitting portion.   The antenna device according to claim 3, wherein the suppressing portion is a space surrounded by the one surface of the holding portion and a groove portion formed on the facing surface of the fitting portion.   An antenna coil, a case having a recess for storing the antenna coil, a first end electrically connected to the antenna coil, and a second end opposite to the first end from the recess to the outside of the case A connecting part protruding to the part, a part of the connecting part housed in the recess and a filler for sealing the antenna coil,
  Furthermore, it has a connector part formed separately from the case,
  The connector portion has a bottomed cylindrical connector housing, and is arranged such that the second end portion of the connection component passes through the bottom portion of the connector housing and is exposed inside the connector housing.
  The case has a holding part that holds the connector part on a side wall that constitutes the concave part, and a notch part on the side wall that constitutes the concave part,
  The connector housing has a fitting portion that is held by fitting with the holding portion;
  The fitting portion is a flange that protrudes outward from the outer periphery of the connector housing,
  The holding portion is a guide groove that is provided on the side wall of the peripheral portion of the cutout portion and guides the flange portion of the connector housing,
  In the connector housing and the case, the first surface of the flange along the direction orthogonal to the thickness direction of the flange is in surface contact with the second surface of the side wall facing the first surface. Placed in
  The connector housing and the case are arranged so that the outer peripheral surface of the flange along the thickness direction of the flange and the inner bottom surface of the guide groove facing the outer peripheral surface of the flange are in surface contact. Has been
  In the contact interface between the first surface of the flange and the second surface of the side wall, a cavity is formed so as to surround the second end of the connection component,
  A cavity is formed at the contact interface between the outer peripheral surface of the flange and the inner bottom surface of the guide groove so as to surround the second end portion of the connection component,
  The antenna device, wherein the first surface and the inner bottom surface are arranged in directions orthogonal to each other.   7. The guide groove according to claim 6, wherein the inner bottom surface is U-shaped or the apex angle is obtuse in a plane perpendicular to the direction in which the connecting component penetrates the bottom portion. The antenna device according to 1.   A vehicle comprising: the antenna device according to any one of claims 1 to 7; and a vehicle body provided with the antenna device.

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