JP2003078314A - Receiving antenna for gps - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the component cost and the assembling cost by simplifying the structure. SOLUTION: Under a state where an antenna module 11 receiving radio wave transmitted from a GPS satellite is contained in an inner space defined by a cover member 10, the bottom face side is sealed by a sealing part 17 formed by filling and curing a synthetic resin material. Consequently, the antenna module 11 is sealed hermetically in the cover member 10 and waterproofness is ensured. Since waterproofness is ensured by such a structure as the antenna module 11 is sealed hermetically in the cover member 10 by synthetic resin material filling the open face of the cover member, many components including a bottom plate, a waterproof packing, and a plurality of screws are curtailed and the structure can be simplified as compared with a receiving antenna for GPS of conventional structure.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a receiving antenna for receiving radio waves transmitted from GPS satellites, and more particularly to a receiving antenna suitable for being mounted on a roof of an automobile and used as an on-vehicle antenna.

[0002]

2. Description of the Related Art Conventionally, a so-called car navigation system, which is a system that guides and guides the route of the vehicle to the driver of the vehicle, has been widely used. In such a car navigation system, the current position is specified based on the speed and mileage of the host vehicle, while the GPS (Global Pos) is used to improve the position accuracy.
itioning System) receiving the radio waves transmitted from the satellite,
The current position is also specified by the position information acquired from the received radio wave.

Radio waves from GPS satellites have high directivity because a high frequency band is used. Therefore, in the car navigation system, G
In order to receive the radio waves from the PS satellite in a good reception state, a receiving antenna is attached by a magnet located on the upper surface side (that is, the roof) of the automobile.

Therefore, the GPS receiving antenna for receiving radio waves from GPS satellites is required to have high weather resistance and waterproofness. Here, an example of a conventional GPS receiving antenna is shown in FIG.

As shown in FIG. 3, a conventional GPS receiving antenna includes an antenna module 100 for receiving radio waves transmitted from GPS satellites, and this antenna module 100 is housed in an internal space formed by a cover member 101. It will be done. The cover member 101 has a hole 101a formed on one side thereof, and the antenna module 1
The transmission cable 102 led out from the
It is pulled out from 01a. Also, this hole 101
The first waterproof packing 103 is attached to the transmission cable 102 at the position a.

The cover member 101 includes a second waterproof packing 104 for sealing the open side and a bottom plate 105 for supporting the second waterproof packing 104 in a state where the antenna module 100 is housed. Installed in sequence. Then, the second waterproof packing 104 and the bottom plate 105 are fixed to the cover member 101 by the four screws 106.

Further, the bottom plate 105 has this G
A magnet 107 for fixing the PS receiving antenna to the roof of the automobile is attached. For the purpose of hiding the heads of the screws 106 on the outside of the bottom plate 105 to improve the appearance and preventing the bottom plate 105 from damaging the roof of the automobile, for example, PET (PolyEthylene Terephthalate). ) Etc., the sheet-like member 108 adhere | attached. The sheet-shaped member 108 has a transparent central portion,
A tag tag 109 is arranged between the bottom plate 105 and the bottom plate 105. And, this GP described in the tag tag 109
The model number of the receiving antenna for S is
It is recognized from the transparent part of.

The conventional GPS receiving antenna is constructed as described above, and the first waterproof packing 103 and the second waterproof packing 10 made of silicon rubber or the like are used.
4, the waterproof property is ensured, and the antenna module 100 housed in the cover member 101 is protected.

[0009]

By the way, the conventional GP
As described above, the S antenna is provided with the first waterproof packing 103 and the second waterproof packing 104, and thus has a structure in which waterproofness is ensured. Further, a bottom plate 105, four screws 106, etc. are provided to support and fix the second waterproof packing 104 and the like.

Since the conventional GPS antenna requires a large number of parts in this way, there is a limit in reducing the parts cost and the assembly cost, and it is difficult to reduce the cost. was there.

Therefore, the present invention has been made in view of the above-mentioned conventional circumstances, and by simplifying the structure, it is possible to reduce the component cost and the assembly cost and to promote the cost reduction. An object of the present invention is to provide a simple GPS receiving antenna.

[0012]

A GPS receiving antenna according to the present invention is a GPS receiving antenna for receiving a radio wave transmitted from a GPS satellite, in which an antenna module for receiving the radio wave and the antenna module are housed. A cover member having a bowl shape with one surface open and having a sufficient internal space, and in a state where the antenna module is housed in the internal space of the cover member, the open surface of the cover member. Is filled with a synthetic resin material, and the antenna module is sealed in the cover member with the synthetic resin material.

The GP according to the present invention configured as described above
The S receiving antenna has a structure in which the antenna module is hermetically sealed in the cover member by the synthetic resin material filled in the open surface of the cover member so that waterproofness is ensured. Then, many parts such as the bottom plate, the waterproof packing, or the plurality of screws can be eliminated, and the structure can be simplified.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a GPS receiving antenna according to the present invention will be described below in detail with reference to the drawings. Hereinafter, as one configuration example to which the present invention is applied, a GPS receiving antenna 1 as shown in FIGS. 1, 2A and 2B will be described. Note that FIG.
FIG. 2 is a schematic perspective view showing the appearance of the GPS receiving antenna 1, FIG. 2A is a schematic cross-sectional view showing a main part of the GPS receiving antenna 1, and FIG. 2B is a GPS receiving antenna. It is a schematic plan view which shows the bottom face of the antenna 1.

The GPS receiving antenna 1 is shown in FIGS.
As shown in FIG. 3, the cover member 10 is formed into a substantially cubic shape as a whole.
Equipped with. The cover member 10 is formed by injection molding a resin material having desired weather resistance and waterproofness, and forms an internal space for accommodating each part of the GPS receiving antenna 1. In addition, the cover member 10
Has one side open and has a bowl-like shape as a whole.

An antenna module 11 for receiving radio waves transmitted from GPS satellites is housed in the internal space of the cover member 10. Antenna module 11
The receiving antenna 13 is mounted on the substrate 12. Further, a shield case 14 accommodating a peripheral circuit of the receiving antenna 13 is arranged on the back surface side of the substrate 12 (the side opposite to the surface on which the receiving antenna 13 is attached).

Holes are formed at the four corners of the outer edge of the substrate 12. The antenna module 11 has a rising portion 10a integrally formed from the inner surface side of the cover member 10 so as to support the peripheral edge of the substrate 12, and corresponds to the hole portion of the substrate 12 on the rising portion 10a. A boss portion is provided at a position where the boss portion is provided, the boss portion is inserted into the hole portion of the substrate 12, and the tip portion of the boss portion is welded to be temporarily fixed in the internal space of the cover member 10.

A transmission cable 15 for outputting a signal contained in the received radio wave is attached from the antenna module 11. The transmission cable 15 is pulled out from the cover member 10 by being inserted into a hole 10b formed in one side portion of the cover member 10.

In the GPS receiving antenna 1, the hole 1 formed in the cover member 10 as described above.
Instead of pulling out the transmission cable 15 by 0b, for example, the transmission cable 15 may be pulled out from the cutout portion formed in the side edge portion of the cover member 10. By pulling out the transmission cable 15 from the cutout portion in this manner, G
The labor of inserting the transmission cable 15 into the hole 10b at the time of assembling the PS receiving antenna 1 can be omitted. However, by pulling out the transmission cable 15 through the hole portion 10b, it becomes easier to ensure waterproofness as compared with the case where the transmission cable 15 is pulled out through the cutout portion.

At the bottom of the antenna module 11 (on the open surface side of the cover member 10), a magnet 16 is arranged as shown in FIG. 2 (b). Magnet 16
Are positioned by the projections 19 on the shield case and magnetically and firmly joined to the shield case 14. Since the GPS receiving antenna 1 is provided with the magnet 16, it is possible to securely fix the GPS receiving antenna 1 to the roof of an automobile by the magnetic force of the magnet 16. The GPS receiving antenna 1 is a magnet 1
Although it may be configured to be fixed to the automobile by another fixing member without providing 6, it is extremely simple to attach and detach to and from the automobile by being configured to be fixed by the magnet 16. It becomes possible. Further, in the GPS receiving antenna 1, the shape and the number of the magnets 16 are not particularly limited.

In the GPS receiving antenna 1, the open surface of the cover member 10 is filled with the synthetic resin material with the antenna module 11 and the magnet 16 housed in the inner space of the cover member 10 as described above. The sealing portion 17 is formed. Note that, in FIG. 2, a portion where the sealing portion 17 is formed by filling the synthetic resin material is shown by a hatched portion.

The sealing portion 17 is formed by filling and solidifying a synthetic resin material such as high molecular polyester by hot melt, and covers the antenna module 11 with the cover member 10.
It is sealed in the inner space of the.

In the GPS receiving antenna 1, since the sealing portion 17 is formed in this manner, high waterproofness is ensured, and the antenna module 11 can be used even when exposed to wind and rain for a long time. It prevents the deterioration such as rust.

Since the GPS receiving antenna 1 is waterproof by the sealing portion 17 which is filled with a synthetic resin material, the number of parts is significantly larger than that of the GPS receiving antenna having the conventional structure. It has been reduced and has a simple structure. Therefore, the GPS receiving antenna 1
Can significantly reduce the component cost and the assembly cost, and can reduce the cost.

The synthetic resin material forming the sealing portion 17 is not limited to the high molecular polyester, and if the desired waterproofness can be secured, the solidification is easy and the fluidity at the time of melting is high. Any material may be used in consideration of properties and the like.

The sealing portion 17 is not particularly limited to filling and solidifying by hot melt, but in consideration of the ease of filling and required man-hours, filling using hot melt is performed. It is desirable to do.

Further, the cover member 10 in the sealing portion 17
The open surface side (the surface side facing the outside) of is preferably formed flat. This is suitable for installation on a relatively flat installation surface such as a roof of an automobile.

Further, in FIG. 2B, the sealing portion 17
Although the example is shown in which the magnet 16 is filled in the sealing portion 17 so that the bottom surface of the magnet 16 faces the outside, the magnet 16 may be completely filled by the sealing portion 17. Good. Thereby, the sealing unit 1
The waterproof property of 7 can be improved. However, from the viewpoint of the fixing strength to the installation surface due to the magnetic force of the magnet 16, it is desirable that the bottom surface of the magnet 16 is exposed from the sealing portion 17 as shown in FIG.

Further, the GPS receiving antenna 1 is shown in FIG. 2 (a) for the purpose of preventing the magnet 16 exposed on the bottom surface from damaging the roof of the automobile.
As shown in FIG. 7, a sheet-like member 18 having substantially the same shape as the bottom surface shape of the cover member 10 may be provided outside the sealing portion 17. Such a sheet member 18 can be formed of, for example, PET (PolyEthylene Terephthalate) or the like. Further, in this case, the sealing unit 1
7 and the sheet-like member 18, a sign tag similar to the GPS receiving antenna of the conventional structure is disposed, and the contents described in the sign tag can be read from the transparent portion formed on the sheet-like member 18. May be possible.

[0030]

The GPS receiving antenna according to the present invention comprises:
Since the antenna module has a structure in which the cover member is sealed by the synthetic resin material with which the open surface of the cover member is filled, the bottom plate, the waterproof packing, or It is possible to reduce the number of parts such as a plurality of screws and simplify the structure.

Therefore, the GPS receiving antenna according to the present invention can contribute to the promotion of cost reduction by greatly reducing the component cost, the assembly cost and the like.

[Brief description of drawings]

FIG. 1 is a schematic perspective view of a GPS receiving antenna shown as a configuration example to which the present invention is applied.

FIG. 2 is a diagram showing an outline of the GPS receiving antenna, FIG. 2 (a) is a schematic sectional view showing a sectional structure, and FIG. 2 (b) is a schematic plan view seen from the bottom side.

FIG. 3 is a schematic exploded view showing a GPS receiving antenna having a conventional structure.

[Explanation of symbols]

1 GPS receiving antenna 10 Cover member 11 antenna module 12 substrates 13 receiving antenna 14 Shield case 15 Transmission cable 16 magnets 17 Sealing part (synthetic resin material) 18 Sheet-shaped member

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Claims (6)

[Claims] 1. A GPS receiving antenna for receiving radio waves transmitted from GPS satellites, comprising: an antenna module for receiving the radio waves; and an internal space sufficient to accommodate the antenna module, and one surface is open. And a cover member formed into a bowl shape, wherein the antenna module is housed in the internal space of the cover member, the open surface of the cover member is filled with a synthetic resin material, and the synthetic resin material is used to A GPS receiving antenna, characterized in that an antenna module is sealed in the cover member. 2. The GP according to claim 1, wherein the synthetic resin material is filled with hot melt.
Receiving antenna for S. 3. The GPS receiving antenna according to claim 1, wherein the synthetic resin material is flatly filled in the open surface of the cover member. 4. The GPS receiving antenna according to claim 1, further comprising a magnet disposed on the open surface side of the cover member. 5. A hole or notch through which a transmission cable for transmitting a signal output from the antenna module is inserted is formed on one side of the cover member. The GPS receiving antenna according to 1. 6. A sheet-shaped member having substantially the same shape as the bottom surface of the cover member is provided outside the synthetic resin material with which the open surface of the cover member is filled. The GPS receiving antenna according to claim 1.