JPH03220802A - Microstrip antenna - Google Patents

Abstract

PURPOSE:To reduce the cost and to prevent the antenna from being escaped from the car body by using part of a dielectric outer shell being a component of a vehicle as a dielectric substance and assembling an antenna at the assembling of the car body simultaneously. CONSTITUTION:A 1st conductive thin film 15 is led out to a lower side of a glass plate 14 via a conductor 18 penetrated through the glass plate 14 while being insulated from a 2nd conductive thin film 16 and connects to a preamplifier 19 of a GPS receiver fixed to the 2nd conductive thin film 16. Moreover, a recessed part is provided to a ceiling 12 and the preamplifier 19 is provided to a position not butted to the ceiling 12. Then the 1st and 2nd conductive thin films 15, 16 are mounted in advance to the glass plate 14. Thus, a microstrip antenna 17 is mounted as soon as a sun roof is assembled without use of a fixing bolt or the like thereby reducing the cost.

Description

[Detailed Description of the Invention] [Industrial Field of Application] This invention is applicable to in-vehicle GPS (Global Port
The present invention relates to a micro-string antenna used as an antenna for a receiver.

[Conventional technology]

In a vehicle navigation system using satellite navigation, a vehicle-mounted GPS receiver is used to receive radio waves from a satellite and measure its own position.

As an antenna for this type of vehicle-mounted GPS, a planar antenna called a microstrip antenna is used for boat fishing.

FIG. 3 is a top perspective view of a conventional microstrip antenna, and FIG. 4 is a bottom perspective view of a conventional microstrip antenna.

In FIGS. 3 and 4, the microstrip antenna has a copper foil 2 pasted in a rectangular shape on the upper surface of a rectangular thin plate L made of a dielectric material, which functions as an antenna element, and a copper foil 2 that functions as a ground on the lower surface of the rectangular thin plate 1. 3 is pasted on the entire surface.

A terminal 4 for extracting a received signal is provided on the bottom surface of the microstrip antenna.

To attach the microstrip antenna configured in this way to a vehicle, after drilling the required number of holes in the ceiling of the vehicle body,
The terminal 4 is inserted into the hole from the upper surface of the ceiling and penetrated to the lower surface, and a mounting bolt is inserted into the hole from inside the vehicle and fixed.

[Problems to be Solved by the Invention] However, such conventional microstrip antennas are separate parts from the car body, and therefore require additional processing and installation after the car body is completed. Therefore, the cost will increase.

Additionally, the microstrip antenna has the disadvantage that after it has been installed, there is a risk that it may come off from the vehicle body due to loosening of the mounting bolt.

The present invention has been made to solve the above-mentioned disadvantages, and provides a microstrip antenna that can be assembled simultaneously with the assembly of a vehicle body and that does not have the risk of detaching from the vehicle body.

[Means to solve the problem]

A microstrip antenna according to the present invention uses a part of a dielectric outer shell that constitutes a vehicle as a dielectric.

[Production m2] Since the microstrip antenna according to the present invention uses a part of the dielectric outer shell that constitutes the vehicle as a dielectric, it can be assembled at the same time as the vehicle body, and there is no fear that it will come off from the vehicle body.

〔Example] Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view showing an attached state of a microstrip antenna according to an embodiment of the invention, and FIG. 2 is a sectional view showing the structure of a microstrip antenna according to an embodiment of the invention.

In FIG. 1, a ceiling portion 12 of a vehicle body 11 that constitutes a vehicle is shown.
An opening 13 is provided in the opening 13, and a glass plate 14, for example, forming a sunroof is slidably fitted into the opening 13.

As shown in FIG. 2, a first conductive thin film 15 such as copper foil, which functions as an antenna element, is pasted in a rectangular shape on the upper surface of the glass plate 14.
A second conductive thin film 16 made of mesh-like copper foil or metal wire is pasted on the lower surface of the glass plate 14 to the second conductive thin film 16 to function as a ground.
A microstrip antenna 17 is configured.

In addition, the first conductive thin film 15 is led out to the lower surface side of the glass plate 14 via a conductive wire I8 penetrating the glass plate 14 and is insulated from the second conductive thin film 16.
(or the lower surface of the glass plate 14) is connected to a preamplifier 19 of a GPS receiver.

Although not shown, even if the glass plate 14 moves,
To prevent the preamplifier 19 from colliding with the ceiling 12, a recess may be provided in the ceiling 12, or the preamplifier 19 may be placed in the ceiling 12.
It is located so that it does not collide with the

Therefore, in this embodiment, by attaching the first and second conductive thin films 15 and 16 to the pre-stamped glass plate 14, the microstrip antenna 17 can be attached with the mounting bolts etc. at the same time as the sunroof is assembled. Can be installed (assembled) without using it,
Cost reduction can be achieved.

Further, since the microstrip antenna 17 is provided on the ceiling portion 12, the microstrip antenna 17 is located at a convenient position for receiving radio waves from the satellite.

Furthermore, since the second conductive thin film 16 is formed into a mesh shape, it does not block the view of the sunroof.

In the above embodiment, the second conductive thin film 16 is formed in a mesh shape, but if a transparent electrode material is used as the conductive thin film, care must be taken not to block the view of the sunroof. When the second conductive thin film 16 is located at a position where it is no longer necessary and can block the view, the second conductive thin film 16 may be made of copper foil or the like.

In addition, although the description has been made using the glass plate 14 constituting the sunroof as an example of the dielectric outer shell, it is also possible to use a rear window glass, a plastic hamper, etc. as the lightning-resistant outer shell. If the car body is made of plastic, it can be installed at any position.

〔Effect of the invention〕

As described above, according to the present invention, a part of the dielectric shell constituting the vehicle is used as a dielectric, so that it can be assembled at the same time as the vehicle body, and costs can be reduced.

Additionally, since no mounting bolts are used for installation, there is no risk of it coming off the vehicle body.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing the installed state of a microstrip antenna according to an embodiment of the present invention, FIG. 2 is a sectional view showing the structure of a microstrip antenna according to an embodiment of the invention, and FIG. 3 is a conventional FIG. 4 is a top perspective view showing a microstrip antenna, and FIG. 4 is a bottom perspective view showing a conventional microstrip antenna. 11...Vehicle body, 14...Glass plate, 15...First
conductive thin film, 16... second conductive thin film, 17...
・Microstrip antenna.

Claims (1)

[Claims] In a microstrip antenna comprising a thin plate made of a dielectric, a first conductive thin film functioning as an antenna element on one side and a second conductive thin film functioning as a ground on the other side, the thin plate A microstrip antenna characterized in that it is a part of a dielectric outer shell that constitutes a vehicle.