The present application is based on Japanese patent application No. 2004-321925, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to a small-sized antenna which is integrated into mobile devices, and the like.
2. Description of the Related Art
As next-generation wireless data communication technology, Bluetooth which uses a band of 2.4 GHz that can be used without a license has been in the limelight, and is integrated into mobile devices such as mobile phones, notebook PCs, PDAs (Personal Digital Assistances), etc., and is expected to become increasingly common.
Circuit components such as antennas, wireless modules, etc., used in the Bluetooth are required to be reduced in size and weight, and it is important to be small in the area occupied by an antenna to be mounted on a circuit.
Although, as a small-sized antenna for this Bluetooth, an inverted-F monopole antenna, or the like has been developed, it is very small (for example, 20 mm×3 mm×3 mm), so that, to mount it on a circuit substrate, a metal conductor which serves as an antenna has to be mounted by integrating it with a resin-molded body (e.g. see Japanese patent application laid-open Nos. 2002-299934 and 7-288422).
However, since, as mentioned above, the small-sized antenna for Bluetooth is very small (about 20 mm×3 mm×3 mm), and is resin-molded together with the metal conductor, sealing of the metal conductor and mold, and the like is required, and there is therefore the problem that the mold tends to be costly.
In particular, as small-sized antennas of this kind tend to be often improved in their shape, changing the mold accordingly would be more costly.
It is an object of the present invention to provide a structure of small-sized antenna that the manufacturing cost can be reduced.
(1) According to one aspect of the invention, a small-sized antenna for being mounted on a circuit substrate comprises:
an antenna body; and
a resin-molded body that comprises a first resin-molded body and a second resin-molded body,
wherein the antenna body is sandwiched by the first and second resin-molded bodies,
the first resin-molded body engages to the second resin-molded body, and
the first resin-molded body is adapted to be mounted on the circuit substrate.
(2) According to another aspect of the invention, a small-sized antenna for being mounted on a circuit substrate comprises:
an antenna body; and
a resin-molded body that comprises a first resin-molded body and a second resin-molded body,
wherein the antenna body is sandwiched by the first and second resin-molded bodies,
the first resin-molded body engages to the second resin-molded body,
the first resin-molded body is adapted to be mounted on the circuit substrate,
the antenna body comprises a ground piece to be seated on the circuit substrate, and an inverted-F antenna element that rises upright from the ground piece and extends parallel to the circuit substrate, the inverted-F antenna element comprising a power feed piece.
It is preferred that the first and second resin-molded bodies sandwich part of the inverted-F antenna element situated nearer its tip side in relation to the power feed piece.
(3) According to another aspect of the invention, a small-sized antenna for being mounted on a circuit substrate comprises:
an antenna body; and
a resin-molded body that comprises a first resin-molded body and a second resin-molded body,
wherein the antenna body is sandwiched by the first and second resin-molded bodies,
the first resin-molded body engages to the second resin-molded body,
the first resin-molded body is adapted to be mounted on the circuit substrate,
the antenna body comprises an inverted-F antenna element that is formed in a cross-sectional L shape, the inverted-F antenna element comprising an engaging piece,
the first resin-molded body is formed substantially in a rectangular parallelepiped shape, the first resin-molded body comprising a top edge portion to contact the inverted-F antenna element and an engaging groove to engage to the engaging piece of the inverted-F antenna element, and
the second resin-molded body is formed substantially in a plate shape to cover the first resin-molded body while sandwiching the inverted-F antenna element therebetween, the second resin-molded body comprising an engaging piece to engage to an engaging hole of the first resin-molded body.
It is preferred that the first resin-molded body comprises on its back side a protruded boss to be fitted into a positioning hole of the circuit substrate.
It is preferred that the ground piece comprises a hole for attaching the small-sized antenna to the circuit substrate.
It is preferred that the ground piece comprises a ground terminal folded downward, the power feed piece comprises a power feed terminal folded downward, and the ground terminal and the power feed terminal are adapted to be connected through a through-hole provided in the circuit substrate to a power supply circuit.
<Advantages of the Invention>
In the invention, the first and second resin-molded bodies engage to each other while sandwiching the antenna body therebetween and, in which state, the antenna body is mounted on the circuit substrate. Thus, the first and second resin-molded bodies can be each made by molding etc. without incorporating the antenna body. For this reason, the manufacturing cost can be reduced.
The preferred embodiments according to the invention will be explained below referring to the drawings, wherein:
As in illustrated in
This antenna body 11, and the first and second resin-molded bodies 12 and 13 constituting the resin-molded body 14 is explained below.
a) illustrates a perspective view of the antenna body 11;
As illustrated in
The metal conductor 10 has an inverted-F antenna element 15 formed by being folded in an L shape along fold lines 1a and 1b, a ground piece 16 formed by being folded along fold lines 1c and 1d in an end portion of that inverted-F antenna element 15, and a power feed piece 17 formed by being likewise folded along fold lines 1c and 1d on the tip side of the inverted-F antenna element 15 relative to the ground piece 16.
The ground piece 16 has a hole 18 formed for engaging a boss 51 of the circuit substrate 50 (see
The power feed piece 17 has a power feed terminal 20 formed by being folded for being inserted and soldered into a through hole 53 of the circuit substrate 50 (see
The inverted-F antenna element 15 comprises an upright antenna piece 21 caused to rise upright by being folded along fold lines 1c and 1d from the ground piece 16 and the power feed piece 17, and a horizontal antenna piece 22 folded horizontally above the ground piece 16 and the power feed piece 17 along fold lines 1a and 1b from that upright antenna piece 21.
The upright antenna piece 21 comprises a base portion 21a positioned in the ground piece 16 and the power feed piece 17, and an upright element portion 21b extending directly from the base portion 21a so as to be formed in a more elongated shape than the base portion 21a and caused to float up from a ground plane 50g of the circuit substrate 50 (see
The horizontal antenna piece 22 has a notched portion 25 positioned on the side of the ground piece 16 and the power feed piece 17.
The antenna body 11 is formed in such a way that, for example, the length of the inverted-F antenna element 15 is 21.6 mm; the width of the tip of the inverted-F antenna element 15 is 1.85 mm; and the height from the ground piece 16 to the horizontal antenna piece 22 is 3 mm.
Referring to
a) illustrates a perspective view of the second resin-molded body 13; and
As illustrated in
As illustrated in
A boss 36 which is positioned in the tip side portion 35a of the mounting surface 35 and the recessed groove 34 to be fitted into a positioning hole 54 of the circuit substrate 50 is formed so as to protrude from the mounting surface 35.
As illustrated in
A pair of engaging pieces 44, 44 which engages the engaging hole 30 of the first resin-molded body 12 is formed in the back face of the second resin-molded body 13 which comes into contact with the top face 12a of the first resin-molded body 12. The engaging pieces 44, 44 has a hook portion 44a formed so as to engage a surface of the recessed groove 34 of the first resin-molded body 12 after being inserted into the engaging hole 30. The second resin-molded body 13 has holes 45, 45 cut in positions of both sides of the engaging pieces 44, 44, which are for handling for sandwiching the antenna body 11 between the first and second resin-molded body 12 and 13 for fitting the antenna body 11 therebetween.
As illustrated in
When this small-sized antenna is mounted on the circuit substrate 50, the boss 36 of the resin-molded body 14 is inserted into the positioning hole 54 of the circuit substrate 50, and the hole 18 of the ground piece 16 of the antenna body 11 is fitted onto the boss 51 of the circuit substrate 50, thereby allowing the small-sized antenna to be mounted on the circuit substrate 50. In this case, since the tip side portion 35a of the mounting surface 35 of the first resin-molded body 12 which is on the tip side of the antenna body 11 is made slightly higher, the ground piece 16 and the power feed piece 17 of the antenna body 11 can be securely brought into contact with the circuit substrate 50.
Also, the ground terminal 19 of the ground piece 16 and the power feed terminal 20 of the power feed piece 17 are inserted into the through holes 52 and 53 of the circuit substrate 50 for being soldered from the back side of the circuit substrate 50 for being connected to a power supply circuit (not illustrated).
In this manner, in the invention, when the antenna body 11 is held by the resin-molded body 14, the resin-molded body 14 is formed by the first and second resin-molded bodies 12 and 13, and the antenna body 11 is sandwiched between the first and second resin-molded bodies 12 and 13 for holding it by the engagement of both. This allows obviating the conventional need to integrally mold the antenna and the resin, but only using a mold for molding the first and second resin-molded bodies 12 and 13, so that the cost of the mold can thereby be substantially reduced, while freely responding even to modifications of antenna design.
Although the invention has been described with respect to the specific embodiments for complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art which fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
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2004-321925 | Nov 2004 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5856912 | Miller et al. | Jan 1999 | A |
6040803 | Spall | Mar 2000 | A |
6110576 | Decker et al. | Aug 2000 | A |
6333716 | Pontoppidan | Dec 2001 | B1 |
20040029329 | Borghs et al. | Feb 2004 | A1 |
Number | Date | Country |
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7-288422 | Oct 1995 | JP |
2002-299934 | Oct 2002 | JP |
Number | Date | Country | |
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20060097928 A1 | May 2006 | US |