This application claims priority to prior Japanese patent application JP 2005-70663, the disclosure of which is incorporated herein by reference.
This invention relates to an antenna unit and, in particular, to an antenna unit for receiving a radio wave from an artificial satellite (which may be called a “satellite wave” hereinafter) or a radio wave from a ground station (which may be called a “ground wave” hereinafter).
In recent years, a digital radio receiver for receiving a satellite wave or a ground wave so as to listen to digital radio broadcasting has been developed and is put into practical use in United States of America. Specifically, two broadcasting stations called XM and Sirius provide radio programs on 250 or more channels in total. The digital radio receiver is generally mounted on a mobile object such as an automobile and is adapted to receive a radio wave having a frequency of about 2.3 GHz as a reception radio wave to listen to the digital radio broadcasting. In other words, the digital radio receiver is a radio receiver capable of listening to mobile broadcasting. Since the frequency of the reception radio wave is about 2.3 GHz, a reception wavelength (resonance wavelength) λ is about 128.3 mm. It is noted here that the ground wave is a radio wave obtained by receiving the satellite wave at a ground station, slightly shifting the frequency of the satellite wave, and re-transmitting the satellite wave as a linear polarized wave. Thus, the ground wave is the linear polarized wave exhibiting linear polarization while the satellite wave is a circular polarized wave exhibiting circular polarization.
An XM satellite radio antenna apparatus normally serves to receive circular polarized radio waves from two stationary satellites and, in an insensitive zone of the circular polarized radio waves, receives a radio wave by using a ground linear polarization portion of the radio antenna apparatus. On the other hand, a Sirius satellite radio antenna apparatus normally serves to receive circular polarized radio waves from three orbiting satellites (synchronous type) and, in the insensitive zone, receives a radio wave by a ground linear polarization portion of the radio antenna apparatus.
As described above, the radio wave having the frequency of about 2.3 GHz is used in the digital radio broadcasting. Therefore, an antenna for receiving the radio wave must be located outside as known in the art. If the digital radio receiver is mounted to the mobile object such as the automobile, the antenna unit must be attached to a roof of the mobile object (car body).
The antenna unit comprises an antenna and an antenna case for covering the antenna. The antenna case comprises a dome-like top cover and a bottom plate. The antenna comprises an antenna element, a circuit board, and a shield case. For example, the antenna element comprises a patch antenna and receives the satellite wave. The circuit board is provided with a circuit (hereinafter will be called a signal processing circuit) for performing various kinds of signal processing, such as signal amplification, upon a signal received by the antenna element. The shield case serves to shield the signal processing circuit.
In the antenna unit already known, a mechanism (unit fixing member) for fixing the antenna unit to the roof of the mobile object (car body) must be formed by a component inside the antenna case. Furthermore, the antenna must be disposed inside the antenna case so that another component (antenna fixing member) for fixing the antenna to the bottom plate is required also. Thus, the antenna unit already known requires the two components, i.e., the unit fixing member and the antenna fixing member so that a required space inside the antenna case is increased. As a result, the antenna case is adversely affected in designability.
It is therefore an object of this invention to provide an antenna unit which can be designed to be small in size and excellent in designability.
Other objects of the present invention will become clear as the description proceeds.
According to an aspect of the present invention, there is provided an antenna unit comprising an antenna, a bottom plate, and a unit fixing member disposed between the antenna and the bottom plate, the unit fixing member being adapted to provisionally fix the antenna unit onto a mobile object and to fix the antenna onto the bottom plate.
Referring to
The antenna unit 10 in
The antenna 12 comprises an antenna element 20, a circuit board 22, and a shield case 24. The antenna element 20 illustrated in the figure comprises a patch antenna and receives a satellite wave. The circuit board 22 is provided with an electrical circuit (hereinafter called a signal processing circuit) for performing various kinds of signal processing, such as signal amplification, upon a reception signal received by the antenna element 20. The antenna element 20 is bonded on a first principal surface of the circuit board 22 by the use of a double-sided adhesive tape (not shown) or the like.
The circuit board 22 is connected to a cable (not shown) for extracting the reception signal to the outside of the antenna case. Further, a shield case 24 is attached to a second principal surface opposite to the first principal surface of the circuit board 22. The shield case 24 is made of metal or conductive material and secured to four corner portions of the circuit board 22 by soldering. Therefore, the shield case 24 is connected electrically to the circuit board 22 and serves to electromagnetically shield the signal processing circuit mounted on the circuit board 22.
The shield case 24 has an opening 24a for allowing a cable (not shown) to pass therethrough. The shield case 24 has a pair of tabs 241 extending outward from opposite side surfaces thereof. The tabs 241 are provided with through holes 24b, respectively.
The antenna unit 10 has a unit fixing member 30 disposed between the antenna 12 and the bottom plate 14. The unit fixing member 30 is made of plastic material. As will later be described in detail, the unit fixing member 30 serves to provisionally fix the antenna unit 10 onto the roof of the mobile object (car body) and to fix the antenna 12 onto the bottom plate 14. Thus, the unit fixing member 30 is disposed directly below the antenna 12.
On the other hand, the bottom plate 14 has a recess 141 adapted to receive the unit fixing member 30. The bottom plate 14 has three bosses 142 having three screw holes 142a to be screwed or engaged with three metal screws 26, respectively. Among the three bosses 142, the two bosses are formed at positions corresponding to the tabs 241 of the shield case 24.
The unit fixing member 30 has three boss receiving portions 31 formed at positions corresponding to the three bosses 142 of the bottom plate 14 and adapted to receive the three bosses 142. The boss receiving portions 31 are provided with communication holes 31a for penetration of the screws 26, respectively. The unit fixing member 30 has a hole 30a allowing the cable to pass therethrough. Further, the unit fixing member 30 has a pair of claws or hooks 32 extending downward to provisionally fix the antenna unit 10 to the roof of the mobile object (car body).
The bottom plate 14 is provided with a hole 141a formed in the recess 141 allowing the cable to pass therethrough and two holes 141b allowing the two claws 32 to pass therethrough.
Referring to
At first, as illustrated in
Next, as illustrated in
Then, as depicted by an arrow A in
As depicted by an arrow B in
As described above, in this embodiment, the unit fixing member 30 for provisionally fixing the antenna unit 10 onto the mobile object (car body) and for fixing the antenna 12 onto the bottom plate 14 is disposed directly below the antenna 12. Thus, the antenna unit 10 adopts an arrangement such that the unit fixing member 30 is overlapped with the antenna 12. As a consequence, a space required inside the antenna case can be reduced. It is therefore possible to provide the antenna unit 10 smaller in size and excellent in designability.
As shown in
While the present invention has thus far been described in connection with the preferred embodiment thereof, it will readily be possible for those skilled in the art to put this invention into practice in various other manners. For example, it will readily be understood that the number of the bosses formed on the bottom plate, the number of the boss receiving portions formed on the unit fixing member, and the number of the tabs formed on the antenna (shield case) are not limited to those mentioned in the foregoing embodiment. The antenna unit described in the foregoing embodiment is suitable for use as an antenna unit for a digital radio receiver. However, without being limited thereto, this invention is applicable to an antenna unit for a GPS receiver, a mobile communication antenna unit for receiving other satellite waves and ground waves, and so on.
Number | Date | Country | Kind |
---|---|---|---|
2005-70663 | Mar 2005 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
3977005 | Cejka | Aug 1976 | A |
6486841 | Imahigashi | Nov 2002 | B1 |
20030137463 | Shimizu | Jul 2003 | A1 |
Number | Date | Country | |
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20060202905 A1 | Sep 2006 | US |