JPH11112219A - Antenna for portable radio equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a small antenna for portable radio equipment, which easily corresponds to plural frequency bands and has satisfactory sensitivity, by winding a folded antenna to a circular form (ring form) so as to constitute the antenna. SOLUTION: An antenna element 12 provided for the outer periphery of an insulating cylinder (core) 11 forms a folded antenna where a folded part is formed in at least one-time shaft direction. An insulating coat 16 such as a thermally shrinking tube is covered from the upper side of the antenna element 12 and it is fixed to the insulating cylinder 11. The metallic holder 13 where a screw part 13a is formed at the outer periphery of a lower part is fixed to the lower end part of the insulating cylinder 11 so that it can be fitted to the casing of the radio equipment by press fitting. At that time, a tongue piece 12a being one end of the antenna element 12 is brought into contact with the inner wall of the holder 13 and they are electrically connected. The periphery is coated with the antenna element 12 and a protected cap 14 is screwed into the holder 13 so as to be fixed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an antenna for a portable radio such as a portable telephone. More specifically, the present invention relates to a small-sized portable radio antenna capable of transmitting and receiving even in two or more frequency bands having, for example, an even number relationship.

[0002]

2. Description of the Related Art Conventionally, a linear (rod) antenna is used as an antenna for a portable radio device such as a portable telephone as shown in FIG. This linear antenna has about 1/4 wavelength, about 3/8 wavelength,
Alternatively, it is formed to have a length of about 1/2 wavelength. Therefore, when the frequency band to be received is determined, the length of the linear antenna is uniquely determined. Therefore, the length of an antenna for transmitting and receiving a signal in a low frequency band is inevitably increased. In order to shorten the external dimensions of the long linear antenna, a method of winding an antenna wire such as a piano wire in a coil shape and covering the outer periphery thereof with a resin or the like has been adopted.

On the other hand, the antenna of such a portable device is
It is housed inside the mobile device so that it does not get in the way when moving, and only a part of the antenna is installed so that only part of the antenna is exposed outside the mobile device to receive the call signal, or another antenna that receives the incoming call signal is installed separately The antenna is provided so as to extend out of the portable device during communication. As a result, while receiving the incoming call signal,
At the time of communication, communication can be performed with increased sensitivity.

[0004] Therefore, an antenna for receiving an incoming call signal alone requires about 1/4 wavelength or about 1/2 wavelength of a received signal.
It is necessary to have a wavelength length, while it is preferably small so as not to be in the way when carrying it. Usually, it is wound in a coil shape to shorten the external length of the antenna. Also, the antenna at the time of communication is too long if the frequency band of the signal to be received is low, it is inconvenient to handle, and the antenna for communication is also shortened in a coil shape.

[0005]

As described above, when the antenna is formed in a coil shape in order to reduce the length as an outer shape, when the coil interval is large, there is little electrical problem, but if the coil interval is sufficiently short, However, when the coil interval is narrowed (the coil is densely wound), the antenna length is shortened. However, there is a problem that the radiation resistance of the antenna is reduced and the antenna performance is deteriorated even when a matching circuit is additionally used.

Further, for example, in a portable telephone, a 900 MHz band frequency is used in GSM (Group Special Mobile) in a European system (corresponding to PDC (Personal Digital Cellular) in a Japanese system), and a DCS (Digital Cellular System) is used. 1800M for PHS (Personal Handy Phone on System)
A frequency in the Hz band is used, and it is preferable that both can be transmitted and received. However, conventionally, in order to transmit and receive both, two antennas are separately provided, or an antenna wire is further connected to the tip of the antenna for the high frequency band via a trap to adjust the length of the low frequency band. However, there is a problem that the antenna becomes large in size.

[0007] In addition, by increasing the sensitivity of the antenna, the sensitivity of the antenna can be improved by using a small antenna so that the communication can be performed only by the receiving antenna without extending the communication antenna. It is desired to transmit and receive signals in a plurality of frequency bands.

The present invention has been made to solve such a problem, and is an antenna which needs to be miniaturized, such as a transmitting / receiving antenna of a portable device. It is an object of the present invention to provide a specific structure of an antenna for a portable wireless device capable of receiving an incoming call signal in the above frequency band and performing communication as it is.

Another object of the present invention is to provide an antenna for a portable radio having a shape that can be improved in mechanical strength even if the parts are reduced in size as the antenna is reduced in size and the thickness is reduced.

Still another object of the present invention is to provide a specific shape of an antenna element that can improve antenna characteristics.

Still another object of the present invention is to provide a first antenna in which the above-mentioned small antenna is used as a first antenna unit and combined with a second antenna unit for communication to further improve the sensitivity during communication. An object of the present invention is to provide a specific structure of an antenna for a portable wireless device in which an antenna unit and a second antenna unit are combined.

[0012]

According to the present invention, there is provided an antenna for a portable wireless device according to the present invention, comprising: an insulator formed of an insulating pillar or an insulating cylinder;
An antenna element having a folded portion formed in the direction of the axis of rotation, a metal holder attached to the lower end of the insulator and in contact with one end of the antenna element, and covering the antenna element and fixing the antenna element to the holder It consists of a cap.

The surface of the antenna element provided on the outer periphery of the insulator is covered with an insulating coating for pressing the antenna element against the insulator, so that the antenna element is firmly fixed to the insulator. Examples of the insulating film include a material that shrinks after being covered like a heat-shrinkable tube, taping of an insulating tape, and a resin film that solidifies after being applied to the surface.

[0014] The antenna element may be formed on a surface of a flexible film, and the flexible film may be wound around the insulator. With this structure, the antenna element is not deformed, and the assembling work is also facilitated.

According to the present invention, there is provided an antenna for a portable wireless device for improving mechanical strength, comprising: an antenna element; a holder to which one end of the antenna element is connected and which has a mounting portion to a housing; And a cap whose lower end is fixed to the holder, and a flange portion of the holder with which the lower end of the cap abuts is formed in a trapezoidal cross section. With such a trapezoidal shape, that is, a tapered shape, the outer diameter of the antenna, that is, the mechanical strength of a portion in contact with the holder at the lower end portion of the cap can be improved without increasing the thickness of the cap. And it is robust against shocks such as falling.

The antenna element is bent a plurality of times so that the long conductors are substantially parallel at predetermined intervals along the long direction, and at least one set of adjacent elements is folded by the folding. The frequency characteristics of the antenna are improved by forming a shape in which the conductor is short-circuited at least in part.

Here, the term “substantially parallel” does not mean completely parallel, but means that a positional relationship that allows capacitive and / or inductive coupling between adjacent antenna elements is obtained.

According to another aspect of the antenna for a portable wireless device of the present invention, the insulator of the antenna according to the first aspect comprises an insulating cylinder, a through hole is provided in a center portion of a top of the cap, and a peripheral portion of the insulating cylinder is provided. A ring spring is provided on the top of the first
And a second antenna portion that passes through the insulating cylinder and can be fixed at the lower end and the upper end by the ring spring. The lower end of the second antenna is fixed by the ring spring. Then, the first antenna unit and the second antenna unit are electrically coupled via a dielectric.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a portable radio antenna according to the present invention will be described with reference to the drawings.

In order to obtain an antenna which does not reduce the performance even if the antenna portion of a portable device or the like which can receive a call signal (incoming signal) when the antenna is stored for movement is small, Furthermore, intensive studies have been made to obtain an antenna capable of transmitting and receiving signals in two or more frequency bands other than odd-numbered multiples with the small antenna. As a result, as shown in a plan view of FIG. 5, the antenna element is bent so as to be substantially (substantially) parallel along its long (axial) direction, so that the folded portion 1a becomes 1 If the number is about 10 to 10, for example, the electrical length of the antenna element does not change so much for the first frequency band of about 900 MHz, and is set to about 1
Acting as an antenna having a length of wavelength, the electrical length greatly changes for the second frequency band,
It has been found that the antenna operates as a quarter-wavelength antenna, and that signals of two or more desired frequency bands, which are not odd-numbered frequencies, can be transmitted and received by adjusting the number of times of folding and the interval thereof. No. is disclosed.

[0021] That is, the antenna element 1, for example formed in a length of about 1/4 wavelength of a frequency band f ₁
In addition, by forming the above-mentioned folded portion 1a, due to the capacitive coupling between the adjacent antenna elements 1 and the relationship between the even mode (even) and the odd mode (odd) of the mode propagating in the antenna element 1, Frequency band f ₁
For odd and multiple frequency bands, the electrical length does not change much, while for even and multiple frequency bands, such as twice, the number of turns and the spacing of antenna elements due to the turns. By adjusting the value, the electrical length can be greatly changed. As a result of further intensive studies, the present inventors have found that by rounding this folded antenna into a cylindrical shape (ring shape), it is easy to match two or more frequency bands, the sensitivity is improved, and the communication is improved. It has been found that the coupling with the second antenna is also very good.

The portable radio antenna of the present invention has an insulating cylinder (core) as shown in FIG.
An antenna element 12 is provided on the outer periphery of 11. The antenna element 12 forms the above-mentioned folded antenna in which the folded portion is formed at least once in the axial direction, as shown in the developed plan view of FIG. 2B.
In the example shown in FIG. 1, an insulating coating 16 such as a heat-shrinkable tube is put on the antenna element 12 from above, and is firmly fixed to the insulating cylinder 11. However, the antenna element 12 formed in a ring shape may be fixed to the insulating cylinder 11 by press fitting or an adhesive. At the lower end of the insulating cylinder 11, it is fixed by press-fitting or the like to a metal holder 13 having a screw portion 13a formed on the lower periphery so as to be attached to a housing such as a wireless device. At this time, the tongue piece 12a at one end of the antenna element 12 contacts and is electrically connected to the inner wall of the holder 13. Therefore, the power supply unit is brought into contact with the lower end of the holder 13 in the housing to be connected to the transmission / reception circuit in the housing. Further, a cap 14 for covering and protecting the antenna element 12 is screwed and fixed to the holder 13 around the periphery.

As shown in a perspective view of FIG. 2 (a) in which the antenna element 12 is wound, the insulating cylinder 11 is an insulating cylinder made of polyethylene (PE), polyoxymethylene (POM) or the like. Consists of Its outer periphery is a smooth arc-shaped surface, and can be press-fitted into a ring shape of an antenna element 12 described later. In the case of using only this antenna, the inner periphery is not limited, and may be a cylindrical body or a cylindrical body.
Further, a polygonal prism or prism may be used, and any insulator containing these may be used.

When penetrating a second antenna section 20 to be described later, an insulating cylinder 11 having a structure as shown in FIG. 2A is used, and the inner peripheral surface thereof is shown in a sectional view in FIG. So that a resin ring spring 15
Is inserted, and serves as a fixing unit when a second antenna unit 20 described later is extended from the housing or stored in the housing. Also, the inner diameter has a two-stage configuration, and the upper part is an inner diameter that allows the joint parts 24a and 26 of the second antenna part 20 to slide when the second antenna part 20 is extended from the housing, and the lower part is An inner diameter passing through a large-diameter stopper portion 27 provided at a lower end portion of the second antenna portion;
The stopper portion 27 passes through the large-diameter portion and is stopped at the small-diameter portion of the upper portion so that the stopper portion 27 does not come off when the second antenna portion 20 is extended from the housing.

As shown in FIG. 2B, the antenna element 12 is folded back so as to be substantially parallel along the long direction of the conductor (the axial direction of the insulating cylinder), as shown in FIG. A part is formed. In the example shown in FIG. 2B, the folded portion is provided a plurality of times, and by folding, the two sets of adjacent elements are short-circuited over the whole of the elements between the folded portions, so that the wide element 12b is formed. Are provided in two places. That is,
As shown in FIG. 5, a folded portion is regularly formed, and a gap between adjacent elements is filled with a conductor at two locations. With such a shape, as shown in FIG. 4, the change in the voltage standing wave ratio with respect to the frequency is small in the entire desired frequency band (f _L is the lower limit frequency and f _H is the upper limit frequency). Become
The frequency characteristics have been greatly improved. In FIG. 4, the broken line is a result when the antenna element having the shape shown in FIG. 5 is used and other conditions are the same.

When such an adjacent element is short-circuited, in the example shown in FIG. 2B, it is short-circuited over the entire length of the adjacent element and the wide element 1 is short-circuited.
2b, similar characteristics were obtained even in a structure in which a short-circuit portion 12c was formed at the root portion or another part of an adjacent element, as shown in FIG. 2 (c). In addition, a tongue piece 12a is formed at one end to increase the area, so that when it is fitted to a holder 13 described later, it is easy to obtain electrical contact.

Such an antenna element 12 is obtained by punching a leaf spring made of, for example, phosphor bronze or beryllium copper into a shape as shown in FIG. Can be press-fitted into a cylindrical insulating cylinder 11 as shown in FIG. However, the present invention is not limited to the one formed by punching a plate-like body, and may be one formed by folding a conductive wire or the like. Further, each element formed by folding is not necessarily linear, but a zigzag portion may be partially formed, or the interval between the elements may be different depending on the location.

Further, the antenna element 12 formed solely by a conductor need not be provided on the outer periphery of the insulating cylinder 11. That is, the antenna element may be formed on the surface of a flexible film made of, for example, polyimide by patterning, and the flexible film may be wound around the insulating cylinder 11 and fixed. With such a structure, the antenna element can be mass-produced by vapor deposition and patterning of a metal film such as a copper foil, and since the flexible film may be wound and fixed, handling is very easy. Therefore, no deformation of the element occurs.

The holder 13 is, as shown in FIG.
A screw portion 13a is provided below the flange portion 13b in contact with the surface of the housing so that the insulating cylindrical body 11 made of metal and holding the above-described antenna element 12 is fixed and attached to a housing such as a portable wireless device. It can be screwed into the housing as it is. Also, a screw portion is formed on the upper portion of the flange portion 13b, and the cap 14 is screwed in so as to protect the antenna element 12 and the like. The cap 14 holds the ring spring 15 (see FIG. 3) and also has a role of protecting the antenna element 12 provided on the surface of the insulating cylinder 11, and is made of ABS (acrylic butadiene styrol), elastomer, or the like. ing.

In the example shown in FIG. 1, as apparent from FIG. 1, the side surface of the flange portion 13b has a trapezoidal portion 13c having a cross-sectional shape.
Is formed. If the trapezoid 13c is not formed, the thickness of the lower end of the cap 14 around the flange 13b is reduced, and the cap 14 is easily damaged when an impact is applied. On the other hand, these antennas are required to be extremely small in size with the reduction in size and size of portable telephones, etc.
A dimension expansion of mm is not allowed. Under this condition, the trapezoidal portion 13c is formed, so that the cap 14 is formed.
The bottom part 14a can be made trapezoidal and its thickness can be increased, the mechanical strength is increased, and the outer shape such as the diameter of the cap 14 is not increased. Greatly improve.

This structure is not limited to the antenna using the folded antenna described above, but is also applicable to an antenna portion formed by a conventional coil. That is, the antenna element includes a holder to which one end of the antenna element is connected and which has a mounting portion to a housing, and a cap which covers the antenna element and whose lower end is fixed to the holder. If the antenna has a structure, a rigid antenna can be obtained without being limited to other structures such as the shape and structure of the antenna element.

The above-described antenna element 12 is press-fitted or fixed to the outer periphery of the insulating cylinder 11 with an adhesive or the like, so that the antenna element 12 folded along the axial direction of the insulating cylinder 11 is wound into a cylindrical shape. Antenna. When the antenna element 12 is attached to the outer periphery of the insulating cylinder 11 and contracted by covering with an insulating coating 16 such as a heat-shrinkable tube, the antenna element 12 is firmly insulated.
Fixed to 1. The insulating film 16 is not a heat-shrinkable tube, but may be one formed by winding an insulating tape (taping) or applying and curing an insulating resin to cure the antenna element 12. I just need. Then, the lower part of the insulating cylinder 11 is pressed into the lower part of the holder 13 and fixed. At this time, the tongue piece 12 provided at one end of the antenna element 12
a comes into contact with the holder 13 and electrical contact is obtained. As a result, power is supplied to the antenna element 12 from the holder 1.
3 by contacting the lower part. Then, by screwing the screw portion 13a of the holder 13 into a housing such as a mobile phone, the lower end of the holder 13 is inserted into the housing and attached.

According to the antenna of the present invention, since the antenna element is bent along the longitudinal direction, the longitudinal direction of the antenna element with respect to the plane of polarization of the electromagnetic wave is always constant, and the electrical length is about 1/4. If the adjustment is made to be an odd multiple of the wavelength, the overall length of the antenna can be shortened without deteriorating the performance of the antenna without adding a matching circuit. In addition, since the antenna element 12 is wound in a cylindrical shape (ring shape), the frequency can be adjusted not only to an odd number but also to an even number and an arbitrary frequency band, and a multi-frequency resonance antenna is obtained. Further, when this antenna is used as a first antenna unit so that the second antenna unit can pass through the center of the first antenna unit, and the second antenna unit is extended from the housing and coupled therewith, the first antenna unit 10 Since the antenna element 12 has a ring shape, matching in two or more frequency bands can be easily achieved, which is convenient.

Next, an antenna for a portable radio which can be coupled with the first antenna by extending the second antenna from the center thereof at the time of communication, using the above-mentioned antenna as the first antenna. This will be described with reference to FIG.
3A illustrates a state in which the second antenna unit 20 is extended from the housing for communication, and FIG. 3B illustrates a state in which the second antenna unit 20 is housed in the housing. The first antenna unit 10 is the same as the antenna described with reference to FIGS.

The second antenna section 20 is used by extending it from the housing to the outside at the time of communication. For example, a piano wire or a copper wire having an electrical length of about 波長 wavelength of the frequency band to be transmitted and received is coiled. The antenna element 21 is formed integrally with a resin portion 28, and its periphery is protected by a tube 22 made of POM, elastomer, or the like.
The antenna section 10 is formed so as to be able to move within the insulating cylinder (core) 11. In the example shown in FIG.
In the antenna element 21 of the antenna unit 20 of
A linear portion 21a is formed at least on the lower end portion side (the coupling portion side with the first antenna portion 10), and the first antenna portion 10 and the second antenna portion 20 are coupled via the linear portion 21a. doing. The second antenna unit 20 may be provided with a trap or the like (not shown) at an intermediate portion thereof so as to correspond to two frequency bands or the like. Second antenna unit 2
0, a second antenna section 2 is provided in the insulating cylinder 11.
A joint 26 and a stopper 27 made of POM or the like are provided by molding or the like so that 0 can be held. The top 24 and the joint 24 made of ABS, elastomer, etc.
Similarly, a is integrally formed, and the top 24 is a knob when the second antenna unit 20 is pulled out of the housing to the outside.

A concave portion 26a is formed on the outer periphery of the joint portion 26 so as to fit with the ring spring 15 of the first antenna portion 10 when the second antenna portion 20 is pulled out of the housing and extended. ing. As a result, when the second antenna section 20 is extended, the concave portion 26a of the joint section 26 and the ring spring 15 are fitted and fixed, and the antenna of the second antenna section 20 is located near the first antenna section 10. The linear portion 21a of the element 21 approaches. And
The second antenna section 20 and the first antenna section 10 are mainly electrically coupled mainly through capacitive coupling via the dielectric (resin section 28) via the linear section 21a, and transmission and reception are performed by both antenna sections. It becomes an antenna of about (1/4 + ／) wavelength of the signal, and can transmit and receive at resonance.

Further, the top 2 of the second antenna section 20
4, a concave portion 24b is also provided on the outer periphery of the joint portion 24a at the lower end of the core 24 when the second antenna portion 20 is housed in the housing.
1 and inserted into the recess 24 of the joint portion 24a.
The ring spring 15 is fitted and fixed to b. Top 24
Is made of resin, and the other end (tip) of the antenna element 21 is separated from the top 24, so that the second antenna section 20 housed in the housing is completely electrically separated and used as an antenna. Does not work. Therefore, only the first antenna unit 10 functions as an antenna for receiving an incoming call signal.

According to the coupling antenna of the present invention, FIG.
(B) a first antenna section 10 in which a folded antenna is wound in a cylindrical shape, and a second antenna section 2 in which a linear section 21a is formed on an antenna element 21 on the lower end side.
By combining with 0, as shown in FIG.
The voltage standing wave ratio VSWR of this antenna was reduced in the entire desired frequency band (f _L is the lower limit frequency, f _H is the upper limit frequency), and the frequency characteristics were greatly improved. FIG.
In FIG. 5, the broken line indicates the frequency characteristics when the antenna element of the conventional first antenna unit is formed using the pattern having the constant width shown in FIG.

[0039]

According to the present invention, since the folded antenna is formed by winding the folded antenna into a cylindrical shape (ring shape), it is easy to cope with a plurality of frequency bands, and it is small, sensitive, and high-performance portable. An antenna for a radio is obtained. As a result, only the short incoming call antenna can be used for communication, and communication can be performed without having to extend the second antenna unit at the time of communication. Also, even if the sensitivity is further increased by extending the second antenna unit during communication,
Since the antenna is coupled to the cylindrically wound first antenna, coupling to two or more frequency bands can be easily performed, and a high-performance antenna can be obtained in a wide frequency band mainly including capacitive coupling.

[Brief description of the drawings]

FIG. 1 is a partial cross-sectional explanatory view of one embodiment of an antenna for a portable wireless device of the present invention.

FIG. 2 is an explanatory diagram of a state in which an antenna element is wound around an insulating cylinder of the antenna of FIG. 1 and an example of a shape of the antenna element.

FIG. 3 is an explanatory diagram of a state of extension and storage of the second antenna unit when the second antenna unit is coupled to the antenna of FIG. 1;

FIG. 4 is a diagram of a VSWR characteristic with respect to a frequency of the antenna of FIG. 3;

FIG. 5 is an explanatory diagram of an antenna in which a conductor is bent along a longitudinal direction.

FIG. 6 is an explanatory diagram of an antenna attached to a conventional portable wireless device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 1st antenna part 11 Insulating cylinder 12 Antenna element 12a Tongue piece 12b Wide element 13 Holder 13b Flange part 13c Trapezoid part 14 Cap 16 Insulating coating 20 Second antenna part

Claims (6)

[Claims] An insulator comprising an insulating pillar or an insulating cylinder, and at least one insulator provided on an outer periphery of the insulator.
An antenna element having a folded portion formed in the direction of the axis of rotation, a metal holder attached to the lower end of the insulator and in contact with one end of the antenna element, and covering the antenna element and fixing the antenna element to the holder For portable radios, consisting of a cap to be used. 2. The antenna according to claim 1, wherein the surface of the antenna element provided on the outer periphery of the insulator is covered with an insulating coating that presses the antenna element against the insulator. 3. The antenna according to claim 1, wherein the antenna element is formed on a surface of a flexible film, and the flexible film is wound around the insulator. 4. An antenna element, a holder to which one end of the antenna element is connected, and a holder having a mounting portion to a housing, and covering the antenna element,
An antenna for a portable wireless device, comprising: a cap having a lower end fixed to the holder; and a flange of the holder in contact with the lower end of the cap is formed in a trapezoidal cross section. 5. An elongated conductor is bent a plurality of times so as to be substantially parallel along a longitudinal direction at a predetermined interval, and at least one set of adjacent elements is folded at least by folding the conductor. An antenna element that is partially short-circuited by a conductor. 6. A first antenna part wherein the insulator of the antenna according to claim 1 is formed of an insulating cylinder, a through hole is provided in the center of the top of the cap, and a ring spring is provided on the upper part of the inner periphery of the insulating cylinder. And passing through the insulating cylinder,
A second antenna portion which can be fixed by the ring spring at a lower end portion and an upper end portion, wherein the first antenna portion and the second antenna portion are fixed when the lower end portion of the second antenna portion is fixed by the ring spring; An antenna for a portable wireless device in which an antenna unit is electrically coupled via a dielectric.