JPH0736484B2 - Portable radio antenna - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an antenna used in a mobile radio portable radio using low power radio or weak radio waves in the VHF band and the UHF band.

(Prior Art and Problems Thereof) In the prior art, a single cord-shaped antenna is adopted as the antenna of the portable wireless device. However, the current one string-shaped antenna has a unidirectional directivity from the height axis to that direction when it hangs down on one side of the body when it is worn and used by a user of a portable wireless device. Moreover, it acts as a transmitting / receiving antenna for the vertical polarization plane. Therefore, when the working posture of the user changes, for example, when the user moves toward the mobile radio base station antenna and faces the back of the human body (bare), there is a drawback that the directivity of the above-mentioned one string-shaped antenna deteriorates. There are few practical problems when the electric field strength is small and the service area is small like inductive radio, but especially when the service area is wide such as low power radio or weak radio waves, the string-shaped antenna is especially recommended from the side of the body. When it becomes unidirectional, the radio service area is reduced due to the lack of transmission radiation power to the base station in the opposite direction, which has a large impact, but it is still effective including the improvement method to mount the antenna on the human body. The reality is that no means have been obtained.

(Object of the Invention) An object of the present invention is to provide an antenna of a portable wireless device in which the influence of the posture of the user of the portable wireless device on directivity and gain is reduced, and omnidirectional directivity is provided to extend the service area. Especially.

(Structure and operation of the invention) In order to solve the above-mentioned problems, a flexible string-shaped antenna element is attached to a cap or vest worn on the body of a user of a portable wireless device, for example, a cap or vest worn on a helmet. Depending on the working posture of the user, a sewn dipole antenna consisting of It is characterized in that the wireless service area of the portable wireless device is expanded by improving deterioration of antenna directivity and improving antenna gain. Furthermore, since the worker's clothing has individuality, a flexible insulator, such as a cap or vest, is meshed so that the antenna can be attached / detached to / from the human body from between the clothing or on the hat. Another major feature is that the vest can be easily stored in a pocket or the like.

Since such a string-shaped dipole antenna sewn to the cap or vest is worn on the human body in the shape of a clothing crest, the symmetry of the antenna can be maintained around the body length axis.

That is, the antenna of the portable wireless device of the present invention has the following configuration.

(1) A helmet-like cap formed of a flexible insulator that is attachable to and detachable from a helmet, and two flexible string antenna elements mounted on the mesh-like cap.
The flexible string-shaped antenna element of the book, when the reticulated cap is attached to the helmet, reaches the edges of the helmet in mutually opposite directions from the feeder connecting portion at the top, and further, in the same direction along the edges. An antenna of a portable wireless device, which is extended so as to be point-symmetrical with respect to the apex.

The antenna directivity (antenna gain) when such an antenna according to the present invention is worn on a human body is 1
Up to about 25 dB, at least about 10 compared to a booklet antenna
dB improved and service area expanded.

That is, when the Danpole antenna of the present invention sewn on the vest in the shape of a crest is worn, the segment pieces of the antenna element sewn at the positions corresponding to both shoulders of the body correspond to the horizontal polarization plane of the dipole antenna, and Part of the antenna element sewn at the positions corresponding to both sides of the antenna element corresponds to the vertical polarization plane of the dipole antenna, and the above two polarization planes can be combined to obtain the so-called polarization diversity effect. Since the directivity is improved in all directions, the drop of received radio waves that occurs when the portable wireless device moves is reduced compared to the conventional single unidirectional string antenna, and the service area is expanded. It

The present invention will be described in detail below with reference to the drawings.

FIG. 1 (A) is a perspective view for explaining a case in which a string-shaped dipole antenna is attached to a human body in a hanging manner. In FIG. 1 (A), the antenna element piece 1 of the string-shaped dipole antenna is shown attached to the human body 2 in a state of hanging a clothing crest. FIG. 1 (B) is a plan view of FIG. 1 (A). FIG. 2 (A) is a front view when the antenna 1 of the present invention is attached to a human body, and FIG. 2 (B) is a front view when the conventional string-shaped antenna 11 is attached to a human body. Also,
FIG. 2C is a plan view showing the directivity in the cases of (A) and (B). FIG. 2D is a characteristic diagram showing the relationship between the antenna reception input level of the portable wireless device and the distance from the fixed station (point 0). 13 shows the conventional characteristics, and 14 shows the characteristics of the antenna of the present invention.

In FIG. 2 (C), reference numeral 3 indicates the unidirectional directivity of the conventional single string antenna 11, and reference numeral 4 indicates the omnidirectional directivity of the robe-shaped dipole antenna 1 of the present invention. .

3 (A), (B), and (C) are a front view, a side view, and a partial front view showing the first embodiment of the present invention, in which the net-shaped vest 6 is attached to the string-shaped dipole antenna 1. It is sewn in the shape of a crest. Reference numeral 5 denotes a portable wireless device, and a feeder pulled out from the rear neck portion of the vest 6 is connected to the wireless device 5 by a connector 30. The vest type garment 6 is easy to put on and take off, and is sewn in a net shape with fibers, so that it does not limit the work operation. Moreover, after undressing, it is rolled into a small shape and pockets in a small volume state. There is a convenience that can be stored in.

FIG. 4 is a plan view and a rear view showing a second embodiment of the present invention, showing an embodiment in which the helmet 8 is attached with the string-shaped dipole antenna 1 sewn on the hell head cap 7. That is, the antenna element 1 of the string-shaped dipole antenna is shown as being sewn on the helmet cap 7 having a mesh shape as shown in the drawing and attached to the helmet 8 in a cap shape. 5 is a portable wireless device (not shown), which is connected to the top of the antenna 1 by a cord (feeder) 40. The part of the antenna element from the top to the edge corresponds to the plane of vertical polarization, and the part along the edge corresponds to the plane of horizontal polarization. Since the helmet cap 7 is sewn in a mesh shape using stretchable fibers as shown in the figure, it is easy to mount and remove it on the helmet 8. Also, after use,
There is the convenience that it can be stored in a small volume by removing it from the helmet 8 and rolling it into a small shape.

FIG. 5 is a side view and a plan view showing a third embodiment in which a string-shaped dipole antenna sewn to a helmet cap of the present invention is mounted on a helmet. In FIG.
Antenna element portion 9 (for vertical polarization plane) on which the string-shaped dipole antenna stands up and the element portion along the edge
A mode in which a cap sewn with 10 (for horizontal polarization) is attached to the helmet 8 in a cap shape is shown. Antenna element parts 9 and 10 are net-shaped helmet caps 7 made of fiber.
Is sewn as shown. A portable wireless device 5 is connected to the antenna element unit 10 by a cord (feeder) 40. As shown in the figure, the helmet cap 7 is sewn in a net shape using stretchable fibers, so it is easy to attach to and remove it from the helmet 8. After use, remove it from the helmet 8 and fold it into a small shape. Then, there is the convenience that it can be stored in a small volume.

(Operation) In Fig. 1, wavefront (direction of arrow) showing the direction of arrival of radio waves
Is set to 15. The antenna directivity (horizontal plane) of the antenna 1 according to the present invention when the antenna 1 mounted on the human body 2 rotates in the direction of the angle θ (arrow) about the X axis is shown in FIG. 2 (C). It is characteristic 4. In addition, in the state where the conventional string antenna 11 of FIG. 2 is attached to the human body,
The characteristic 3 is the result of measuring the antenna directivity (horizontal plane) of the conventional antenna 11 when it is rotated in the direction of the angle θ (arrow) about the X axis. As the characteristics 3 and 4 show, the antenna directivity (horizontal plane) 4 of the present invention is omnidirectional, which is superior (up to 25 dB) to the unidirectionality of the conventional antenna directivity (horizontal plane) 3. That is, when worn on the human body, for example, toward the mobile radio base station antenna,
Since the conventional defect that the directivity of the antenna is deteriorated when it is on the back side of the human body (level), the level difference d between the conventional antenna directivity 3 in a single direction and the antenna directivity 4 in all directions according to the present invention is d. (= Approx. 25 dB), which corresponds to an increase in the received input level. In FIG. 2 (D), the reception input distance characteristic by the conventional string antenna 11 of the portable wireless device 5 is shown as 13
If so, the reception input distance characteristic of the antenna 1 of the present invention is 14
Therefore, the service area determined by the reference value L of the communicable reception level is improved by the reception input level difference d, the distance indicating the radius of the service area is changed from l ₁ to l ₂ , and the service area is changed by the distance l ₃ minutes. It will be expanded. It can be seen that the antenna directivity (horizontal plane) of the portable wireless device 5 mounted on the human body is substantially constant even if the working posture of the user changes, which is significantly effective in expanding the service area.

The antenna directivities (horizontal planes) of the embodiments shown in FIGS. 3, 4, and 5 are actually measured to be values approximately approximate to the omnidirectional directivity characteristics 4 of FIG. 2C. It was

(Effects of the Invention) (1) Since the antenna directivity is almost constant even when the posture of the user changes in the state of being worn on the human body, it is effective in ensuring stable mobile wireless communication for workers. Effective in expanding the service area.

(2) This antenna is convenient because it can be easily attached / detached to / from a human body, a melmet or the like (general cap), and can be easily stored.

[Brief description of drawings]

FIG. 1 is an explanatory view of a case where the clothing crest-shaped antenna of the present invention is mounted on a human body, and FIG. 2 is an explanatory view of antenna directivity (horizontal plane) and an antenna reception input distance characteristic diagram, FIG. 3, FIG. FIG. 5 is a structural diagram showing an embodiment of the present invention. 1,9,10,11 …… Antenna element, 2 …… Human body, 3,4 …… Antenna directionality (horizontal plane), 5 …… Portable radio, 6 …… Vest type clothing, 7 …… Helmet cap, 8 ...... Helmet, 13,14 ...... Antenna reception input distance characteristics, 15 ...... Wavefront in the direction of radio wave arrival, 30 ...... Connector, 40 …… Code.

Claims (1)

[Claims] 1. A helmet-like cap formed of a flexible insulator that can be attached to and detached from a helmet, and two flexible string antenna elements mounted on the mesh-like cap. The flexible cord-shaped antenna element reaches the edges of the helmet in opposite directions from the feeder connecting portion at the top when the net-shaped cap is attached to the helmet, and further extends in the same direction along the edges. ,
An antenna of a portable wireless device arranged so as to be arranged point-symmetrically with respect to the top.