JP2014158065A - On-vehicle antenna - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the number of components of an on-vehicle antenna.SOLUTION: An antenna element 22 is printed on a spoiler 10 with a conductive paint. The conductive paint includes a thermosetting binder. The binder cures at a temperature lower than a melting point of an insulator which forms the spoiler 10. In the step of printing the antenna element 22 on the spoiler 10, after applying the conductive paint to the spoiler 10, the conductive paint is cured by heat so that the conductive paint is fixed to the spoiler 10. The conductive paint may include an ultraviolet curable binder. In this case, after applying the conductive paint to the spoiler 10, the conductive paint is irradiated with ultraviolet rays. Thus, the conductive paint is cured and fixed to the spoiler 10.

Description

  The present invention relates to a vehicle-mounted antenna, and more particularly to an antenna in which an antenna element is provided in an accessory part of a vehicle.

  As a vehicle-mounted antenna, a spoiler antenna in which an antenna element is provided on a spoiler is widely used. The spoiler is a member attached to the body of the vehicle, and adjusts the flow of air around the vehicle and has an aesthetic appearance of the vehicle. The spoiler includes a bowl-shaped one provided at the upper part of the rear window of the vehicle and a wing-shaped one provided at the rear part of the vehicle. Generally, the spoiler is formed of a hollow plastic resin, and the antenna element is provided inside the spoiler. Other in-vehicle antennas include those in which an antenna element is provided inside a bumper formed of a hollow plastic resin, and those in which an antenna element is provided in an overhead console of a passenger compartment.

  The following patent documents 1 to 6 describe techniques related to the present invention. Patent Documents 1 to 3 describe a vehicle-mounted spoiler antenna. Patent Document 4 describes a technique for forming an antenna element by attaching a conductive paste to a base material. Patent Document 5 describes a technique for forming an antenna element by printing a conductive paste on a dielectric substrate. Patent Document 6 describes a film antenna substrate. In this film antenna substrate, an antenna element made of a metal wiring layer is laminated on a transparent substrate including a transparent resin layer. The upper part of the metal wiring layer is exposed from the film antenna substrate, and the lower part of the metal wiring layer is embedded in the film antenna substrate. Cited Document 7 describes a vehicle antenna transmission / reception structure in which an antenna element is provided on an overhead console.

JP 2009-177556 A JP 2009-177484 A JP 2008-283609 A Japanese Patent Laid-Open No. 2005-124025 JP 2011-129817 A JP 2010-147860 A JP 2008-118546 A

  In general, an antenna element of a vehicle-mounted antenna is fixed to a substrate, and the substrate is fixed to an exterior component such as a spoiler or a bumper or an interior component such as an overhead console. However, in such a configuration, in addition to the substrate, screws and the like for fixing the substrate are required, and there is a problem that the number of components increases.

  An object of the present invention is to reduce the number of parts of a vehicle-mounted antenna.

  The present invention includes an accessory attached to a vehicle and formed of an insulator, and an antenna element provided on the accessory and printed with a conductive paint.

  In the vehicle-mounted antenna according to the present invention, preferably, the paint includes a binder, the binder includes a thermosetting material, and is cured at a temperature lower than a melting point of the insulator forming the accessory.

  In the vehicle-mounted antenna according to the present invention, preferably, the paint includes a binder, and the binder includes an ultraviolet curable material.

  The accessory parts in the present invention include exterior parts provided outside the vehicle body such as spoilers, bumpers and windows, and interior parts provided in the vehicle compartment such as an overhead console and inner panel. Moreover, the aspect before printing of the coating material in this invention may be any of gas, liquid, or solid. When the paint is a solid, for example, a powder is used.

  According to the present invention, the number of parts of a vehicle-mounted antenna can be reduced.

It is a figure which shows the vehicle carrying a spoiler. It is sectional drawing of a spoiler antenna. It is a figure which shows the inner surface of an upper board. It is a figure which shows a printing process. It is a figure which shows a printing process. It is a figure which shows the inner surface of an upper board. It is a figure which shows the vehicle provided with the overhead console. It is a perspective view of an overhead console.

  FIG. 1 shows a vehicle 100. On the upper part of the rear window 12 of the vehicle 100, a bowl-shaped spoiler 10 is provided. The spoiler 10 is a hollow exterior part formed of a plastic resin or the like, and adjusts the flow of air around the vehicle 100 and has an aesthetic appearance of the vehicle 100. The spoiler 10 is provided with a spoiler antenna.

  FIG. 2 shows a cross-sectional view when the spoiler 10 is cut in the vertical direction and in the front-rear direction of the vehicle 100. The x-axis positive direction corresponds to the rear of the vehicle 100, and the y-axis positive direction corresponds to the vertically upward direction. Further, the positive z-axis direction corresponds to the left direction toward the front direction of the vehicle 100. The spoiler 10 includes an upper plate 14 and a lower plate 16 formed of an insulator. As the insulator, for example, plastic resin such as polypropylene and ABS resin is used. The upper plate 14 and the lower plate 16 are joined at the respective rear edges to form a spoiler 10 having a substantially V-shaped cross section. The upper plate 14 and the lower plate 16 may be integrated with a common material.

  The front edge of the upper plate 14 is in contact with the body 20. Further, the front edge of the lower plate 16 is in contact with the rear window 12, and the rear window 12 is sandwiched between the lower plate 16 and the body 20. An antenna element of a spoiler antenna is provided on the inner surface 15 of the upper plate 14.

  FIG. 3 shows the inner surface 15 of the upper plate 14. The antenna element 22 is printed on the inner surface 15 of the upper plate 14 by a printing process described later. The antenna element 22 has a shape in which two linear conductors 24 and 26 extending in the left-right direction are connected at both ends. That is, the antenna element 22 has a circular shape formed by the linear conductors 24 and 26.

  The linear conductors 24 and 26 are spaced in parallel with each other from the connection point at the right end in FIG. 3 in the left direction, and the linear conductors 24 are recessed forward near the center of the spoiler 10. On the left side of the section in which the linear conductor 24 is recessed, the linear conductors 24 and 26 extend in the left direction substantially in parallel, and gradually become narrower and are connected at the left end. The circular shape formed by the linear conductors 24 and 26 extends in the left-right direction while drawing an arc.

  The antenna element 22 has a feed line 30 drawn from the linear conductor 26 and is connected to an amplifier 28. The amplifier 28 is connected to a cable leading to a receiver disposed inside the vehicle 100. The radio wave received by the antenna element 22 is input as an electrical signal to the amplifier 28, amplified by the amplifier 28, and input to the receiver.

  The antenna element 22 is printed on the upper plate 14 with a conductive paint. FIG. 4 shows a process in which the antenna element 22 is formed by the printing process. The process of printing the antenna element 22 on the upper plate 14 is as follows. As shown in FIG. 4A, when the upper plate 14 is formed, a groove 32 that describes the shape of the antenna element 22 is formed on the inner surface 15. A primer for improving the adhesion of the paint is applied to the surface of the groove 32.

  Next, as shown in FIG. 4B, the conductive paint 34 is attached to the groove 32. The conductive paint 34 may be a powder or a liquid. The conductive paint 34 includes a thermosetting binder. The binder is a material that fixes the conductive paint 34 to the print medium. As the binder, a binder that cures at a temperature lower than the melting point of the insulator forming the upper plate 14 is used. Examples of such a material include polyester and epoxy resin. After the conductive paint 34 is attached to the groove 32, the conductive paint 34 is cured by applying heat to the conductive paint 34, and the conductive paint 34 is fixed to the upper plate 14.

  After fixing the conductive paint 34 to the groove 32, as shown in FIG. 4C, the antenna element 22 formed of the conductive paint 34 is covered with a protective layer 36 made of plastic resin. As this process, for example, a liquid plastic resin is applied to the antenna element 22 and the vicinity thereof and the plastic resin is cured. Moreover, you may employ | adopt the process of affixing the film formed with the plastic resin on the antenna element 22 and its vicinity. The protective layer 36 is provided according to the strength of the antenna element 22 and does not necessarily have to be provided.

  According to such a process, the conductive paint 34 is securely fixed to the upper plate 14 by the primer. Further, the binder contained in the conductive paint 34 is cured at a temperature lower than the melting point of the insulator forming the upper plate 14. This avoids deformation of the upper plate 14 in the process of fixing the conductive paint 34. Further, since the conductive paint 34 is printed in the groove 32, the antenna element 22 is prevented from being damaged in the post-printing process, that is, in the process after the antenna element 22 is formed. Moreover, when the antenna element 22 and its vicinity are covered with the protective layer 36, the effect which protects the antenna element 22 is heightened.

  Note that the conductive paint 34 may be attached to the upper plate 14 without forming the grooves 32. In this case, the conductive paint 34 is attached to the upper plate 14 without forming the grooves 32, and the shape of the antenna element 22 is drawn on the upper plate 14. Thereafter, the conductive paint 34 is cured by applying heat to the conductive paint 34, and the conductive paint 34 is fixed to the upper plate 14.

  As the conductive paint 34, a material containing an ultraviolet curable binder may be used. In this case, after the conductive paint 34 is attached to the groove 32 of the upper plate 14, the conductive paint 34 is irradiated with ultraviolet rays. As a result, the conductive paint 34 is cured, and the conductive paint 34 is fixed to the upper plate 14. When an ultraviolet curable binder is used as the conductive paint 34, the conductive paint 34 need not be heated in the step of fixing the conductive paint 34, and the upper plate 14 is prevented from being deformed.

  FIG. 5 shows an example in which the print region 40 is formed by the paint guide 38 protruding from the inner surface 15. The same components as those shown in FIG. 4 are denoted by the same reference numerals, and the description thereof is omitted. The process of printing the antenna element 22 on the upper plate 14 is as follows. As shown in FIG. 5A, when the upper plate 14 is formed, a paint guide 38 that describes the shape of the antenna element 22 is formed on the inner surface 15 of the upper plate 14. That is, the paint guides 38 are formed so that the print region 40 sandwiched between the pair of paint guides 38 corresponds to each linear conductor forming the antenna element 22. A primer for enhancing the adhesion of the paint is applied to the surface of the printing region 40.

  Next, as shown in FIG. 5B, a thermosetting or ultraviolet curable conductive coating 34 is attached to the printing region 40. When the thermosetting conductive paint 34 is used after the conductive paint 34 is attached to the printing region 40, the ultraviolet curable conductive paint 34 is used by applying heat to the conductive paint 34. In such a case, the conductive coating 34 is cured by irradiating the conductive coating 34 with ultraviolet rays, and the conductive coating 34 is fixed to the upper plate 14. After fixing the conductive paint 34 to the printing region 40, as shown in FIG. 5C, the antenna element 22 formed of the conductive paint 34 is covered with a protective layer 36 as necessary.

  According to such a process, the same effect as that obtained by the process shown in FIG. 4 can be obtained. That is, the effect that the conductive paint 34 is securely fixed to the upper plate 14 by the primer, the effect that the upper plate 14 is prevented from being deformed in the process of fixing the conductive paint 34, and the antenna element 22 are protected. An effect etc. are acquired.

  Note that the conductive paint 34 may be attached to the upper plate 14 without forming the paint guide 38. In this case, the conductive paint 34 is attached to the spoiler 10 and the shape of the antenna element 22 is drawn on the spoiler 10. Thereafter, the conductive paint 34 is cured, and the conductive paint 34 is fixed to the spoiler 10.

  As the shape of the antenna element, the shape shown in FIG. 6 may be adopted in addition to the shape shown in FIG. The antenna element 23 is obtained by adding lateral conductors 42R and 42L and a plurality of longitudinal conductors 44 to the antenna element 22 shown in FIG. The lateral conductor 42L extends from the left end of the recessed section of the linear conductor 24 to the left in the region sandwiched between the linear conductors 24 and 26, and is connected to the connection point of the linear conductors 24 and 26. The lateral conductor 42R extends rightward from the right end of the section where the linear conductor 24 is recessed, and is connected to the connection point of the linear conductors 24 and 26. The front-rear conductor 44 extends in the x-axis direction, that is, the front-rear direction of the vehicle, in a region sandwiched between the linear conductors 24 and 26. The plurality of front and rear conductors 44 are arranged in a region sandwiched between the linear conductors 24 and 26 at a predetermined interval. Thus, by providing the lateral conductors 42R and 42L and the plurality of longitudinal conductors 44, the structural parameters that can be adjusted to set the antenna characteristics are increased, and the characteristics of the spoiler antenna are made the desired characteristics. be able to.

  In the spoiler antenna shown in FIGS. 3 and 6, the antenna element is provided on the inner surface 15 of the upper plate 14, but the antenna element may be provided on the inner surface of the lower plate 16. The spoiler antenna shown in FIG. 3 and FIG. 6 is used for a radio wave in a medium wave band or a short wave band, for example, an AM radio, FM radio, DAB (Digital Audio Broadcast) receiver or the like. For AM radio and FM radio, one antenna element may be shared.

  Next, an embodiment in which an antenna element is provided in the passenger compartment will be described. FIG. 7 shows a vehicle 102 in which an overhead console 46 is provided on a ceiling 47 of the body. The overhead console 46 is fixed near the boundary between the front window 48 and the ceiling 47. The overhead console 46 includes a light and an accessory case for illuminating the vehicle interior. In the vicinity of the outer periphery of the front window 48, a decorative paint 50 made of ceramic or the like as a raw material is applied to the surface on the passenger compartment side in order to enhance the beauty around the front window 48. In many cases, a black color is used for the decorative paint 50 to cover the periphery of the front window 48. The overhead console 46 extends from the ceiling 47 to the area of the front window 48 where the decorative paint 50 is applied.

  FIG. 8 is a perspective view of the overhead console 46. This figure is a view of the overhead console 46 from a position outside the passenger compartment. The overhead console 46 includes a circuit accommodating portion 48, an accessory case 52, and an antenna installation plate 55. The circuit housing portion 48, the accessory case 52, and the antenna installation plate 55 may be integrated by a plastic resin.

  The circuit accommodating portion 48 has a box shape and accommodates a light and an electronic circuit that controls lighting and extinguishing of the light. An opening 51 covered with a lens is provided on the vehicle compartment side of the circuit housing portion 48, and the light irradiates the vehicle compartment from this opening 51. The accessory case 52 has a box shape and accommodates accessories. There is an opening 54 on the compartment side of the accessory case 52, and the opening 54 is provided with an openable / closable lid.

  The antenna installation plate 55 protrudes from the body to the front window 48 side. The antenna installation plate 55 is covered with a region of the front window 48 where the decorative paint 50 is applied. The antenna installation plate 55 is provided with antenna elements 56 and 58 having different reception frequency bands. The antenna elements 56 and 58 are printed on the antenna installation plate 55 by the printing process shown in FIGS. In the example shown in FIG. 8, the antenna elements 56 and 58 have a rectangular shape. Cables are connected to the antenna elements 56 and 58 and connected to a receiver disposed inside the vehicle 102.

  According to such a structure, each antenna element is arrange | positioned at the compartment side of the front window 48, without being covered with the body formed with the conductor. This avoids deterioration of the antenna performance due to the body. Further, since each antenna element is covered by the region of the front window 48 to which the decorative paint 50 is applied, it is possible to avoid deteriorating the aesthetic appearance. The antenna element shown in FIG. 8 is used for GPS (Global Positioning System), ETC (Electronic Toll Collection System), etc., for example.

  The antenna element according to the present invention may be provided in an exterior part such as a bumper or an interior part such as an inner panel in addition to the spoiler and the overhead console as described above.

  10 spoiler, 12 rear window, 14 upper plate, 15 inner surface, 16 lower plate, 20 body, 22, 23, 56, 58 antenna element, 24, 26 linear conductor, 28 amplifier, 30 feed line, 32 groove, 34 conductive Paint, 36 protective layer, 38 paint guide, 40 printing area, 42R, 42L lateral conductor, 44 longitudinal conductor, 46 overhead console, 47 ceiling, 48 front window, 50 decorative paint, 51, 54 opening, 52 accessories 55, antenna installation plate, 100,102 vehicle.

Claims (3)

Attached to the vehicle and made of insulators,
An antenna element provided on the accessory part and printed with conductive paint;
A vehicle-mounted antenna comprising: The in-vehicle antenna according to claim 1,
The paint includes a binder;
The vehicle-mounted antenna, wherein the binder includes a thermosetting material and is cured at a temperature lower than a melting point of an insulator forming the accessory part. The in-vehicle antenna according to claim 1,
The paint includes a binder;
The vehicle-mounted antenna, wherein the binder includes an ultraviolet curable material.

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