DE69732564T2 - TONE ANTENNA - Google Patents

Description

BACKGROUND OF THE INVENTION

1. Field of the invention

The The present invention relates to a multi-frequency antenna, for example is capable of 4 wavebands, bands from portable radiotelephones, FM radio bands, AM radio bands and GPS bands receive, in particular an antenna, for use as a roof antenna is suitable, which is attached to the roof of a vehicle body is.

2. Description of the state of the technique

It There are different types of antennas attached to the body of a Vehicle can be attached. However, since the reception sensitivity by attaching a Antenna on the roof increased can be, so the highest Body of a vehicle body, has been a roof antenna for some time, which is mounted on the roof, preferred. As an FM radio and an AM radio are generally provided inside a vehicle body, is about it In addition, an antenna that is capable of both FM radio bands as also AM radio bands to receive, well suited, and roof antennas, both of which receive radio bands and can use together are often needed.

In addition, please Vehicle navigation systems that are of the global positioning system (GPS), and portable cell phones lately always greater popularity, and it will be a GPS antenna for a car navigation system and a portable radio antenna for a portable Radio telephone attached to the vehicle body.

If about that In addition, a vehicle equipped with a keyless entry system is that the doors through wireless transmission closes by remote control and opens, is also an antenna for the keyless Access attached to a vehicle body.

There however, this independent one Attaching various types of antennas to a vehicle body does not look good and the maintenance as well as the attachment itself complicated, is a multi-frequency antenna, the bands of portable radiotelephones, FM radio bands, AM radio bands, GPS bands and bands for the keyless entry with only a single antenna receives, desirable.

An example of the implementation of this type of multi-frequency antenna, as disclosed in earlier application Kokai Hei 6-132714, is disclosed in U.S.P. 7 shown. According to 7 is the retractable rod antenna 101 an antenna for three wavebands capable of receiving bands of portable radiotelephones, FM radio bands and AM radio bands, the flat radiating element 102 a GPS antenna that receives GPS signals and the ring (loop) radiating element 103 is a keyless entry antenna that receives signals for keyless entry. Each of these antennas is on the surface of a main unit 100 appropriate. In the upper part of the main unit 100 is a metal plate 104 provided, and the flat radiating element 102 and the ring radiating element 103 are with a dielectric layer between them at the top of the plate 104 educated. Since this plate serves as a ground plane, the flat radiation element work 102 and the ring radiating element 103 as microstrip antennas. At the top of the flat radiating element 102 and the ring radiating element 103 is also a protective cover 105 educated. However, in the multi-frequency antenna described above, if the retractable rod antenna 101 is to be stored so that it does not protrude from the surface, is in the inner cavity of the attachment, via which the multi-frequency antenna is mounted, a receiving space in which the rod antenna 101 is required. Therefore, the multi-frequency antenna can indeed be attached to the trunk room lid or fender of a vehicle body, but not at a location such as the roof, where there is no receiving space. It is now known that the elevation angle of a radio wave transmitted by a GPS satellite is often a small elevation angle. However, when a multi-frequency antenna is mounted on the trunk lid or fender, depending on the position of the GPS satellite, there is a fear that a radio wave from the satellite is blocked by the body of the vehicle.

In addition, as described above, when a ring radiating element 103 for keyless entry is provided so that it is the flat radiating element 102 Surrounding the GPS antenna, this can have a very negative impact on the sensitivity of the GPS antenna, since the elevation angle of a GPS radio wave is often a small elevation angle, depending on the position of the GPS satellite.

Another prior art multi-frequency antenna is in the document JP 794929 disclosed. However, no GPS antenna is provided.

Accordingly, the present invention is based on the object, a multi-frequency antenna to provide, which can be mounted in a raised position, such as the roof of a vehicle body, on which there is no receiving space, and which is designed so that it does not affect the operation of a GPS antenna.

SUMMARY THE INVENTION

Around accomplish the aforementioned task creates the invention according to a multi-frequency antenna Claim 1.

The The above-described multi-frequency antenna can be on the roof of a Vehicle body are attached, and the above-described GPS antenna receiving part is formed using a prop, the entire scope of the GPS antenna described above encloses. The GPS antenna receiving part described above is designed to shield a printed circuit board that is attached the rear face the GPS antenna described above is positioned.

Furthermore is the antenna element described above about 20 ° to 35 ° from a tilted vertical position. As in accordance with the present invention no antenna receiving part in the lower part of the multi-frequency antenna is required when attached to the body of a vehicle is, it becomes possible this antenna in a raised position, such as the roof, to install, where no recording room is available. Therefore it is possible to have one Prevent situation in which a vehicle body or a another object to which a multi-frequency antenna is attached, the GPS radio waves blocked, which provided for the GPS antenna are, making it impossible is made to receive these GPS radio waves. As well as the PCB is positioned orthogonal to the GPS antenna, the Earthing effect of the GPS antenna be improved. About that It also makes it possible the fact that the circuit board is arranged upright and the Antenna element is arranged inclined that negative impact to the GPS antenna as much as possible can be prevented, even when GPS radio waves arrive at a small elevation angle. There shielded the circuit board that performs the GPS antenna signal processing is, can as well the GPS antenna can be operated in a stable state.

SHORT DESCRIPTION THE DRAWING

In show the drawing:

1 Fig. 12 is a diagram illustrating an oblique view illustrating a part of the constitution of an embodiment of the multi-frequency antenna of the present invention;

2 Fig. 12 is a diagram illustrating an oblique view illustrating another part of the constitution of an embodiment of the multi-frequency antenna of the present invention;

3 a cross-sectional view and a front view of the configuration of an embodiment of the multi-frequency antenna of the present invention;

4 Fig. 12 is a diagram illustrating a constitution of a base and a cover of the multi-frequency antenna of the present invention;

5 Fig. 12 is a diagram illustrating a constitution of a board carrier of the multi-frequency antenna of the present invention;

6 Fig. 12 is a diagram illustrating an embodiment of a ground carrier of the multi-frequency antenna of the present invention; and

7 a diagram illustrating an embodiment of a conventional multi-frequency antenna.

DESCRIPTION THE PREFERRED EMBODIMENTS

In 1 and 2 FIG. 12 is an oblique plan view illustrating an embodiment of the multi-frequency antenna of the present invention.

According to these figures, the antenna element 1 a linear element 1-1 , a means 1-2 to avoid wind noise that coils around the element 1-1 wraps, and an antenna base 1-3 made of a flexible synthetic resin such as rubber. Inside this antenna base 1-3 can use a locking coil and with the element 1-1 be connected. In addition, a screw benfeder to protect against fractures, the part of the antenna element 1 is inside the antenna base 1-3 be provided.

It is also a fixing screw 1-4 for attaching the antenna element 1 on a cover 2 provided by the bottom of this antenna element 1 protrudes.

In addition, the electrical length from the tip of the antenna element 1 to the fixing screw 1-4 , which is the tip of the antenna base, about ¼ of the wavelength of the FM radio band, and the electrical length of the mounting screw 1-4 to the bottom of the locking coil inside the antenna base 1-3 is about 1/4 the wavelength of the band of portable radiotelephones.

A connector 2-7 for connecting the elements in which the fixing screw 1-4 attached to the bottom of the antenna element 1 is screwed in, is waterproof on the cover 2 provided on the antenna element 1 is attached. In addition, this cover is designed so that it fits to the in 2 represented base 3 can be attached, which is covered over its entire surface with a metallic or conductive coating.

A platinum carrier 12 Being prepared by processing a metal plate is at the base 3 attached. An amplifier board 8th comprising a gain circuit and a matching board 9 that includes a tuner and a splitter are perpendicular to this board carrier 12 attached. A connector 7 for electrical connection of the antenna element 1 with the adapter board 9 is fastened using solder, and a connecting screw 4 in the middle of the connector 2-7 for connecting the elements to the top of the cover 2 is used together with a waterproof washer to this connector 7 screwed, causing the fitting 2-7 for connecting the elements electrically to the connector 7 is connected.

A recording part 3-10 which is a rectangular GPS antenna 10 is in the base 3 trained, and the GPS antenna 10 is inside this receiving part 3-10 along with a wave-shaped wave spring 11 added. If the cover 2 on the base 3 Applied and attached to this is the GPS antenna 10 through one inside the cover 2 trained pressure nose against the base 3 pressed, and the GPS antenna 10 gets inside the receiving part 3-10 held. In addition, in the state in which the cover 2 at the base 3 is attached, the cover 2 at the base 3 fastened by four fixing screws 14 from the back of the base 3 screwed into screw holes that are inside the cover 2 are formed. In addition, a Befestigungsschraubenteil protrudes 3-9 used in a mounting hole formed in a vehicle body or other object to which a multi-frequency antenna is attached, from the back of the base 3 forth, and an O-ring 13 is in this mounting screw part 3-9 used to make it waterproof. In addition, a cushioning cushion 15 made of a flexible material at the bottom of the base 3 appropriate. This makes it possible to prevent the object to which a multi-frequency antenna is attached from being scratched when the multi-frequency antenna is attached to this object by a nut 16 on the attachment screw part 3-9 screwed on the back of the object to which the multi-frequency antenna is attached protrudes.

So that the cover 2 waterproof at the base 3 is attached, moreover, a groove along the circumference of the lower portion of the cover 2 formed, and in this groove is a waterproof seal 6 used.

In addition, a connection cable eighteen , a GPS cable 19 , a telephone cable 20 and a radio cable 21 into the interior of the object to which the multi-frequency antenna is attached, pulled by passing through a through hole in the base 3 and by the cylindrical Befestigungsschraubenteil 3-9 be guided.

In this case, the grounded parts of the telephone cord 20 and the radio cable 21 through a ground support 17 electrically connected together, and both cables are tied together. Then they are using a lanyard 22 with the connecting cable eighteen tied together. In addition, connecting parts are provided for connection at the ends of each cable and the line, respectively.

3 (a) shows a cross-sectional view and 3 (b) shows a front view of the thus executed multi-frequency antenna according to the present invention when it is mounted. In addition, shows 4 (a) the execution of the inside of the cover 2 and 4 (b) shows the execution of the surface of the base 3 , Hereinafter, the multi-frequency antenna according to the present invention will be described with reference to these figures.

As shown in the figures, the connecting screw 4 that in the cover 2 integrated connector 2-7 is used to connect the elements, in the connector 7 screwed to the matching board 9 is attached. Therefore, a signal passing through the antenna element 1 which is received in the connector 2-7 screwed to connect the elements, via the connector 2-7 for connecting the elements and the connecting screw 4 the adapter board 9 fed. Then every received signal in the matching board 9 and the amplifier board 8th (not shown in the figure) is split and amplified by the telephone cable 20 and the radio cable 21 directed into the interior of the vehicle body, so the object to which the multi-frequency antenna is mounted. The telephone cable 20 and the radio cable 21 be through the mounting screw part 3-9 , which has a cylindrical shape, pulled out.

The customization board 9 and the amplifier board 8th are fixed so that they are standing in the board support 12 are arranged. The earthed parts of the two boards 8th . 9 are at this time electrically with the platinum carrier 12 connected, and he is beyond the base 3 grounded to the object to which the multi-frequency antenna is attached.

In addition, the GPS antenna 10 in the room, through the cover 2 and the base 3 is formed, recorded and held. The GPS antenna 10 has a rectangular shape and is in a rectangular receiving part 3-10 taken, that is a prop 3-1 which has standing at the base 3 is arranged so that it covers the circumference of this GPS antenna 10 encloses. The top surface of this GPS antenna 10 is by pressure noses 2-2 subjected to four places on the inner surface of the cover 2 are formed. This turns the GPS antenna 10 inside the receiving part 3-10 held.

In addition, on the outer circumference of the pressure noses 2-2 that in the cover 2 are formed, a prop 2-1 which has practically the same shape as the one in the base 3 trained prop 3-1 and the recording of the GPS antenna 10 allows, opposite the prop 3-1 educated.

There is also a wave spring 11 so under the GPS antenna 10 They used the GPS antenna 10 safely inside the receiving part 3-10 holds. A circuit board having circuits that process GPS signals is on the rear face of the GPS antenna 10 intended. Because this circuit board inside the conductive receiving part 3-10 is positioned, it is through the receiving part 3-10 shielded. Therefore, the GPS antenna 10 Work consistently, and GPS signals are transmitted through the GPS cable 19 directed into the interior of the object to which the multi-frequency antenna is attached.

In this case, a groove 3-8 to pull out the GPS cable 19 in the prop 3-1 trained, and the GPS cable 19 that in this groove 3-8 is inserted, by a cable pressure nose 2-8 which is designed so that it is covered by the cover 2 trained prop 2-1 further protrudes, charged and held.

In addition, there is a grooved part 2-6 around the entire circumference of the lower portion of the cover 2 formed around, and in this grooved part 2-6 is a watertight seal 6 used. A support part 3-6 That part in this grooved 2-6 is introduced along the entire circumference of the base 3 educated. If, as shown in the figure, the cover 2 on the base 3 is applied, thus pushing the support part 3-6 against the watertight seal 6 and forms a waterproof fit.

On the entire surface of the base 3 a metallic or conductive coating is formed, which makes them conductive. At the bottom of the base 3 is a flexible cushion 15 positioned, with the base 3 on the top of the object to which the multi-frequency antenna is attached, is placed and held, and the Befestigungsschraubenteil 3-9 is inserted into a rectangular mounting hole formed in the object to which the multi-frequency antenna is attached. The base 3 is attached to the object to which the multi-frequency antenna is mounted by a nut 16 on the attachment screw part 3-9 is screwed, which protrudes on the rear end face of the object to which the multi-frequency antenna is attached protrudes.

In addition, as in 3 (b) shown, the GPS antenna 10 practically parallel to the base 3 arranged, but the amplifier board 8th and the adapter board 9 are arranged standing. Consequently, the effective ground area is increased, and the grounding effect of the GPS antenna 10 will be improved. In addition, even if a GPS satellite has a small elevation angle, the negative impact of the circuit board on the GPS antenna 10 be prevented as much as possible.

The antenna element 1 is mounted in an oblique position of about 20 ° to 35 ° relative to a vertical line. Consequently, even if a GPS satellite has a small elevation angle, the negative effects of the antenna element 1 on the GPS antenna 10 be prevented as much as possible.

In 5 is the version of the platinum carrier 12 shown. The platinum carrier 12 is prepared by processing a metal plate, as in 5 shown, with a pair of PCB terminals 12-1 . 12-2 is formed on each of the two long sides. This PCB terminal 12-1 is the clamp that the adapter board 9 secures, and the PCB terminal 12-2 is the clamp that the amplifier board 8th guaranteed. The PCB terminals 12-1 . 12-2 are fork-shaped, and the space between the two parts is practically the thickness of the printed circuit boards 8th . 9 , As shown in the figure, the printed circuit boards 8th . 9 positioned by the in the printed circuit boards 8th . 9 trained notches 8-2 . 9-2 each with the PCB terminals 12-1 . 12-2 be engaged.

After placing and holding the circuit boards 8th . 9 on the PCB terminals 12-1 . 12-2 become the circuit boards 8th . 9 on the board carrier 12 fastened by the earthed parts 8-1 . 9-1 the circuit boards 8th . 9 to the PCB terminals 12-1 . 12-2 be soldered. At this time, the grounded parts 8-1 . 9-1 the circuit boards 8th . 9 electrically with the platinum carrier 12 connected.

In addition, a pair of raised tongues 12-3 used as raised cable supports for the GPS cable. There is also another pair of raised tongues 12-4 as raised tongues for attachment of a subsequently described platinum carrier 17 by soldering, and the through hole 12-5 is a through hole through which different cables are routed. Furthermore, mounting holes are in three places 12-7 formed with fastening lugs 3-11 which are in the above-described basis 3 according to 4 (b) out are formed. The platinum carrier 12 is based on this engaging the base 3 is positioned and is by squeezing the attachment lugs 3-11 attached.

In 6 is the design of a ground carrier 17 shown. 6 (a) is a side view of the ground carrier 17 . 6 (b) is a front view of the ground carrier 17 , and 6 (c) is a plan view of the ground support 17 , As shown in these figures, are in the ground support 17 a holder 17-3 , which is a relatively thick radio cable 21 holds, and a holder 17-4 holding a relatively thin telephone cable 20 holds, trained. These holders 17-3 . 17-4 hold the respective cables 20 . 21 from a window part formed in the side 17-2 be soldered. This will be the ground support 17 electrically with the earthed parts of the cables 20 . 21 connected.

In addition, an overhanging part protrudes 17-1 from the side of the ground carrier 17 out. This overhang part 17-1 is at the soldering part 12-6 between the pair of raised tongues 12-4 on the board carrier 12 according to 5 soldered.

This will be the ground support 17 on the board carrier 12 attached and electrically connected to this. This will make the grounded parts of the cables 20 . 21 through the platinum carrier 12 grounded. In addition, it is possible to use the cables 20 . 21 to pull out vertically. The antenna element 1 The multi-frequency antenna according to the present invention is implemented as a 3-frequency antenna, but the present invention is not limited to this type of antenna element. An AM band and FM band antenna can also be used for two frequencies.

There the subject matter of the present invention is embodied As described above, no antenna receiving part is at the Bottom of the multi-frequency antenna necessary, and during assembly the subject matter of the present invention to the body of a Vehicle can be mounted in a high position such as the Roof, take place where no receiving space exists. Therefore, it is possible to prevent the GPS radio waves passing through a GPS antenna be received, by the vehicle body or another Object to which the subject of the present invention attached is to be blocked.

There the PCB is positioned perpendicular to the GPS antenna can Furthermore the grounding effect of the GPS antenna can be improved. Furthermore allows it is the fact that the circuit board is arranged upright and that the antenna element is inclined is positioned, negative impact on the GPS antenna so far as possible to prevent even if GPS radio waves in a small elevation angle Arrive.

Besides that is a stable one Operation of the GPS antenna possible, because the circuit board, which processes signals, which through the GPS antenna be received, is shielded.

Claims (4)

Multi-frequency antenna with a whip antenna element ( 1 ) for receiving at least AM radio bands and FM radio bands; and an attachment of the antenna element ( 1 ) and an at least matching means, splitting means and reinforcing means having circuit board ( 8th . 9 ) antenna housing, wherein the antenna housing a conductive base ( 3 ) and one in the base ( 3 ) matching cover ( 2 ), wherein the printed circuit board ( 8th . 9 ) is mounted with the base standing, wherein the multi-frequency antenna is characterized in that the antenna housing accommodates a GPS antenna inside and a GPS antenna receiving part ( 3-10 ) for attaching the GPS antenna ( 10 ) in the base ( 3 ) is installed such that it is orthogonal to the printed circuit board ( 8th . 9 ). A multi-frequency antenna according to claim 1, wherein said Antenna is attached to the roof of a vehicle housing. A multi-frequency antenna according to claim 1, wherein said in the conductive base ( 3 ) formed GPS antenna receiving part ( 3-10 ) with one the entire circumference of the GPS antenna ( 10 ) surrounding support ( 3-1 ), and wherein a printed circuit board positioned on the rear end face of the GPS antenna is formed by the GPS antenna receiving part (11). 3-10 ) is shielded. A multi-frequency antenna according to claim 1, wherein said Antenna element by 20 ° to 35 ° off a vertical position, and fixed to the antenna housing is.