WO2022039180A1 - Wireless communication structure - Google Patents

Abstract

Provided is a wireless communication structure which makes it possible to improve communication performance of wireless communication at a place other than the place just above a lid member.　The present invention is provided with: a communication line 20 or a power line 30 housed in an underground space 40 which is provided with an opening part 40a along the ground G; a lid member 50 for closing the opening part 40a; and a wireless base station device 60 that has an antenna part 62 used for transmission and reception of radio waves E. The antenna part 62 has: at least one power feed element 62a to which power is supplied and which is provided to the lid member 50 or the underground space 40; and at least one non-power feed element 62b which is disposed so as to be spaced apart from the power feed element 62a in the lid member 50 and which changes the directivity of the power feed element 62a.

Description

Wireless communication structure

The present invention relates to a wireless communication structure in which an antenna portion is provided at the same height as the ground or below the ground among a plurality of components constituting the wireless base station apparatus.

Conventionally, as a wireless communication structure, a communication line and a power line housed in an underground space having an opening along the ground, a lid member for closing the opening, and an antenna portion used for transmitting or receiving radio waves. (For example, see Patent Document 1).

In the wireless communication structure, the antenna part is installed on the lower surface side of the lid member so that the antenna part is exposed from the hole provided in the lid member.

Japanese Unexamined Patent Publication No. 2020-61612

However, in the above-mentioned wireless communication structure, when an omnidirectional antenna is used as the antenna portion, radio waves may be transmitted to the entire horizontal direction above the lid member, or radio waves may be received from the entire horizontal direction. However, there is a problem that the communication performance of wireless communication is low because the strength of the radio wave to be transmitted and the reception sensitivity of the radio wave are low.

On the other hand, in the above-mentioned wireless communication structure, when a directional antenna is used as the antenna portion, the strength of the radio wave transmitted in the vertical direction and the reception sensitivity of the radio wave can be increased directly above the lid member, but for example, the lid. It is difficult to increase the strength of radio waves to be transmitted and the reception sensitivity of radio waves in directions other than directly above the lid member, such as roads and sideways adjacent to the members. Therefore, it is desired that a wireless communication structure using a directional antenna improves the communication performance of a place where wireless communication is required in a direction other than directly above the lid member.

An object of the present invention is to provide a wireless communication structure capable of improving the communication performance of wireless communication in a direction other than directly above the lid member.

The wireless communication structure of the present invention includes a communication line or a power line housed in an underground space having an opening along the ground, a lid member for closing the opening, and an antenna used for transmitting or receiving radio waves. The antenna portion is provided with a radio base station apparatus having a unit, and the antenna unit is separated from at least one feeding element provided in the lid member or the underground space and to which power is supplied, and the feeding element in the lid member. It has at least one non-feeding element, which is arranged so as to change the directivity of the feeding element.

Further, in the wireless communication structure of the present invention, the non-feeding element is detachably provided with respect to the lid member, and the mounting position of the lid member can be changed.

Further, in the wireless communication structure of the present invention, the non-feeding element is fixed to the lid member by a fastening member.

Further, the wireless communication structure of the present invention is attached to the lid member by fitting the feeding element into the fitting hole formed on the lower surface side of the lid member.

Further, in the wireless communication structure of the present invention, the power feeding element is attached to a recess formed on the lower surface side of the lid member.

Further, in the wireless communication structure of the present invention, the power feeding element is embedded inside the lid member.

Further, in the wireless communication structure of the present invention, the wireless base station apparatus has a main body portion for supplying electric power to the power feeding element, and the main body portion is attached to the lower surface of the lid member.

Further, in the wireless communication structure of the present invention, the first non-feeding element in which the at least one non-feeding element is arranged on one side in the horizontal direction of the feeding element and functions as a waveguide, and the horizontal feeding element. It is composed of two types of non-feeding elements, a second non-feeding element arranged on the other side of the direction and functioning as a reflector.

According to the present invention, since it is possible to change the communicable communication area of the wireless communication terminal according to the arrangement of the non-feeding element with respect to the feeding element, wireless communication such as a roadway in a direction other than directly above the lid member is possible. It is possible to reliably set the required place as a communication area, and it is possible to improve the communication performance of wireless communication.

It is a schematic diagram of the wireless communication structure which concerns on 1st Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 1st Embodiment of this invention. It is a top view for demonstrating the wireless communication structure which concerns on 2nd Embodiment of this invention. It is a top view for demonstrating the wireless communication structure which concerns on 3rd Embodiment of this invention. It is a top view for demonstrating the wireless communication structure which concerns on 4th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 5th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 6th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 7th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 8th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 9th Embodiment of this invention. It is a top view for demonstrating the wireless communication structure which concerns on 10th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 10th Embodiment of this invention. It is sectional drawing for demonstrating the wireless communication structure which concerns on 11th Embodiment of this invention.

<First Embodiment>
1 and 2 show the first embodiment of the present invention. FIG. 1 is a schematic view of a wireless communication structure, and FIG. 2 is a cross-sectional view for explaining the wireless communication structure.

The wireless communication structure 1 of the first embodiment is used for, for example, a 5G communication system, and is configured along an extension direction of a road such as a motorway or a general road as shown in FIG. Is. In the present embodiment, the wireless communication structure 1 arranged in the underground space will be described, but the present invention is not limited to this embodiment, and the wireless communication structure may be arranged on the ground.

As shown in FIG. 1, the wireless communication structure 1 has a communication line 20, a power line 30, an underground space 40 in which an opening 40a is provided along the ground G, and the communication line 20 and the power line 30 are housed, and an opening. It includes a lid member 50 that closes 40a, and a radio base station device 60 that is arranged in the underground space 40.

The underground space 40 is a space on the side of the road that communicates in the extending direction of the road. In the underground space 40, the communication line 20 and the power line 30 extend in the extending direction of the road in a state of being arranged in the width direction of each other. In the underground space 40, a plurality of resin U-shaped grooves 41 having a bottom surface portion and a pair of side surface portions in the width direction are arranged along the road, and at the upper ends of the plurality of U-shaped grooves 41 arranged along the road. It is formed by closing the provided opening 40a by a plurality of lid members 50. The U-shaped groove 41 is buried in the ground so that the upper end thereof is located near the ground G.

The lid member 50 is a resin plate-shaped member preferably formed on both sides flat and has excellent transparency of radio waves E, and the above-ground space and the underground space 40 are in a state where the opening 40a is closed. It divides with. The upper surface of the lid member 50 is flush with the ground G in a state where the opening 40a is closed. The lid member 50 is formed with protrusions, mechanical portions, and the like, and its thickness is not constant (uniform). In particular, the thickness of the lid member 50 located above the center of the feeding element of the antenna portion, which will be described later, is preferably 1.0 cm, more preferably 3.0 cm, and particularly preferably 4.0 cm.

Here, the U-shaped groove 41 and the lid member 50 are formed of, for example, a polyolefin resin such as polyethylene and polypropylene, a polyester resin such as polyethylene terephthalate, and a resin material such as polystyrene resin. Further, the U-shaped groove 41 and the lid member 50 may be formed by using one kind of the above-mentioned resin material alone, or may be formed by using two or more kinds of the above-mentioned resin materials.

As shown in FIG. 2, the radio base station apparatus 60 has a main body portion 61 connected to the communication line 20 and the power line 30, and an antenna portion 62 connected to the main body portion 61.

The main body 61 is connected to the communication line 20 via an optical connection line 21 such as an optical fiber, and can transmit and receive signals to and from the communication line 20. Further, the main body 61 is connected to the power line 30 via the electrical connection line 31, and power is supplied from the power line 30.

The antenna portion 62 is connected to the main body portion 61 via an electrical connection line 63. The main body unit 61 receives the radio wave E transmitted from, for example, a portable wireless communication terminal (not shown) that moves on the ground via the antenna unit 62, and performs wireless communication transmitted by the radio wave E to be received by the wireless communication terminal. ..

The antenna portion 62 is provided in the underground space 40 and is provided at the feeding element 62a to which power is supplied from the main body portion 61 via the connecting line 63 and the lid member 50 and is arranged at a position separated from the feeding element 62a. It has a non-feeding element 62b.

The feeding element 62a is a planar antenna that transmits and receives radio waves E on one surface. The feeding element 62a is a so-called microstrip antenna having a derivative substrate extending in the horizontal direction, a radiation element wired on one surface of the derivative substrate, and a ground conductor plate wired on the other surface of the derivative substrate. Is. The power feeding element 62a is fixed in the underground space 40 with one surface of the derivative substrate facing upward via a bracket 42 attached to the wall surface of the U-shaped groove 41. The feeding element 62a has a directivity in which the strength of the radio wave E transmitted upward from the upper surface of the radiating element is increased and the reception sensitivity of the radio wave E directed downward is increased. The radiating element of the feeding element 62a is formed in a rectangular shape having a side size of, for example, half the wavelength of the radio wave E. The size of one side of the radiation element of the power feeding element 62a is not limited to half the size of the wavelength of the radio wave E.

The non-feeding element 62b is a rectangular metal plate and is arranged on the upper surface side of the lid member 50. The non-feeding element 62b is arranged at the same position as the feeding element 62a in the vertical direction or above the feeding element 62a and at a position separated from the feeding element 62a. The non-feeding element 62b is arranged at a position separated from the feeding element 62a by, for example, half the wavelength of the radio wave E. The non-feeding element 62b in the first embodiment is spaced upward from the feeding element 62a, and the centers in the horizontal direction thereof are arranged at positions separated from each other in the horizontal direction. The size of one side of the non-feeding element 62b is formed to be, for example, half the wavelength of the radio wave E. The size of one side of the non-feeding element 62b is not limited to half the wavelength of the radio wave E.

As shown in FIG. 2, the non-feeding element 62b changes the directivity of the feeding element 62a according to the horizontal arrangement with respect to the feeding element 62a. Specifically, the intensity of the radio wave E is increased in a specific direction. Therefore, in the wireless communication structure 1, the strength of the radio wave transmitted in a specific direction and the reception sensitivity of the radio wave are increased. The specific direction is, for example, a direction in which wireless communication is possible with a wireless communication terminal owned by the user or mounted on an automobile or the like (direction in which a sidewalk or a roadway is located).

In the wireless communication structure 1 configured as described above, the main body 61 constituting the wireless base station device 60 operates by the power supplied from the power line 30 and transmits / receives signals to / from the communication line 20. , A signal is transmitted and received to and from a wireless communication terminal moving on the ground via the antenna unit 62.

At this time, as shown in FIG. 2, the direction in which the strength of the radio wave E increases is diagonally above the side where the non-feeding element 62b is located due to the arrangement of the feeding element 62a and the non-feeding element 62b. It is possible to use a roadway in a direction other than directly above 50 as a communication area.

Further, as shown in FIG. 1, a plurality of radio base station devices 60 are arranged at intervals from each other along the extending direction of the road. As a result, the wireless communication terminals in the automobile moving on the road are sequentially located in the communication area of the adjacent wireless base station devices 60, and continuous wireless communication becomes possible.

In the first embodiment, the power feeding element 62a is arranged in the underground space 40, but as shown in the sixth to tenth embodiments described later, the feeding element 62a is arranged in the lid member 50. You may.

As described above, according to the wireless communication structure 1 of the present embodiment, the communication line 20 or the power line 30 housed in the underground space 40 provided with the opening 40a along the ground G, and the lid for closing the opening 40a. A member 50 and a radio base station device 60 having an antenna unit 62 used for transmitting or receiving radio waves E are provided, and the antenna unit 62 is provided in the lid member 50 or the underground space 40 and is supplied with power. It has at least one feeding element 62a and at least one non-feeding element 62b which is arranged apart from the feeding element 62a in the lid member 50 and changes the directivity of the feeding element 62a.

As a result, it is possible to change the communicable communication area of the wireless communication terminal according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a. It is possible to reliably set the required place as a communication area, and it is possible to improve the communication performance of wireless communication.

<Second Embodiment>
FIG. 3 shows a second embodiment of the present invention, and is a plan view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 2 of the second embodiment, a mounting groove 50a to which the non-feeding element 62b is mounted is formed on the upper surface side of the lid member 50.

As shown in FIG. 3, the mounting groove 50a is formed along the extending direction of the underground space 40, and the non-feeding element 62b can be attached to an arbitrary position in the extending direction of the underground space 40 indicated by the arrow A. It is possible.

The wireless communication structure 2 configured as described above can adjust the direction of the communication area in the extending direction of the underground space 40. This makes it possible to adjust the orientations of the respective communication areas of the adjacent radio base station devices 60 in the extending direction of the road to each other in the extending direction of the road.

As described above, according to the wireless communication structure 2 of the second embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the non-feeding element 62b is detachably provided on the lid member 50 and the mounting position on the lid member 50 can be changed.

As a result, the communication area can be set according to the installation status of the wireless base station apparatus 60, so that the communication performance between the terrestrial wireless communication terminal and the wireless base station apparatus 60 can be further improved. ..

<Third Embodiment>
FIG. 4 shows a third embodiment of the present invention, and is a plan view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 3 of the third embodiment, a mounting groove 50b to which the non-feeding element 62b is mounted is formed on the upper surface side of the lid member 50.

As shown in FIG. 4, the mounting groove 50b is formed along the width direction of the lid member 50 (width direction of the underground space 40), and is indicated by the arrow B in the width direction of the lid member 50 (underground space 40). The non-feeding element 62b can be attached to any position in the width direction).

The wireless communication structure 3 configured as described above makes it possible to adjust the direction of the communication area in the vertical direction at a place adjacent to the underground space 40. This makes it possible to adjust the direction of the communication area in the vertical direction according to the condition of the road, such as when the height of the lid member 50 and the height of the upper surface of the road are different.

As described above, according to the wireless communication structure 3 of the third embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the non-feeding element 62b is detachably provided on the lid member 50 and the mounting position on the lid member 50 can be changed.

As a result, the communication area can be set according to the installation status of the wireless base station apparatus 60, so that the communication performance between the terrestrial wireless communication terminal and the wireless base station apparatus 60 can be further improved. ..

<Fourth Embodiment>
FIG. 5 shows a fourth embodiment of the present invention, and is a plan view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 4 of the fourth embodiment, a mounting groove 50c to which the non-feeding element 62b is mounted is formed on the upper surface side of the lid member 50.

As shown in FIG. 5, the mounting groove 50c is formed so as to surround the feeding element 62a in the circumferential direction on the upper surface side of the lid member 50. The mounting groove 50c has a portion formed along the extending direction of the underground space 40 and a portion formed along the width direction of the lid member 50 (the width direction of the underground space 40). .. The non-feeding element 62b can be mounted in the mounting groove 50c at an arbitrary position in the circumferential direction shown by the arrow C in FIG.

The wireless communication structure 4 configured as described above can adjust the direction of the communication area in the extending direction of the underground space 40 and also in the vertical direction in the place adjacent to the underground space 40. This makes it possible to adjust the communication area in the extending direction and the vertical direction of the underground space 40 according to the state of each communication area of the adjacent radio base station devices 60 in the extending direction of the road and the state of the road. Become.

As described above, according to the wireless communication structure 4 of the fourth embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the non-feeding element 62b is detachably provided on the lid member 50 and the mounting position on the lid member 50 can be changed.

As a result, the communication area can be set according to the installation status of the wireless base station apparatus 60, so that the communication performance between the terrestrial wireless communication terminal and the wireless base station apparatus 60 can be further improved. ..

<Fifth Embodiment>
FIG. 6 shows a fifth embodiment of the present invention, and is a cross-sectional view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 5 of the fifth embodiment, the non-feeding element 62b is arranged in the recess 50d provided on the upper surface side of the lid member 50, and the non-feeding element 62b arranged in the recess 50d is fixed by the fastening member 51. There is.

The fastening member 51 is a screw-shaped member that can be screwed into a screw hole provided in the lid member 50. The fastening member 51 is, for example, a special screw having a star-shaped tip and a hole in the head into which only a dedicated tool can be fitted.

The wireless communication structure 5 configured as described above is fixed by the fastening member 51 in a state where the non-feeding element 62b is arranged in the recess 50d provided on the upper surface side of the lid member 50. This makes it possible to prevent the non-feeding element 62b from falling off from the lid member 50. Further, since the fastening member 51 is a special screw that can be operated only with a dedicated tool, it is possible to prevent the non-feeding element 62b from being removed by mischief.

As described above, according to the wireless communication structure 5 of the fifth embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

It is preferable that the non-feeding element 62b is fixed to the lid member 50 by the fastening member 51.

As a result, the non-feeding element 62b can be reliably fixed to the lid member 50, so that the communication performance between the terrestrial wireless communication terminal and the wireless base station device 60 can be maintained.

<Sixth Embodiment>
FIG. 7 shows a sixth embodiment of the present invention, and is a cross-sectional view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 6 of the sixth embodiment, a fitting hole 50e for fitting the feeding element 62a is formed on the lower surface side of the lid member 50.

In the wireless communication structure 6 configured as described above, the feeding element 62a is fixed to the lid member 50 by fitting the feeding element 62a into the fitting hole 50e.

As described above, according to the wireless communication structure 6 of the sixth embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the feeding element 62a is attached to the lid member 50 by fitting into the fitting hole 50e formed on the lower surface side of the lid member 50.

As a result, by fitting the feeding element 62a into the fitting hole 50e of the lid member 50, the feeding element 62a can be attached to the lid member 50, so that the work man-hours in the assembling work can be reduced. This makes it possible to reduce manufacturing costs.

<7th Embodiment>
FIG. 8 shows a seventh embodiment of the present invention, and is a cross-sectional view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 7 of the seventh embodiment, a recess 50f capable of accommodating the feeding element 62a is formed on the lower surface side of the lid member 50, and the feeding element 62a is fixed by a fastening member or the like while being accommodated in the recess 50f. Has been done.

As described above, according to the wireless communication structure 7 of the seventh embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the feeding element 62a is attached to the recess 50f formed on the lower surface side of the lid member 50.

As a result, by attaching the feeding element 62a to the recess 50f formed on the lower surface side of the lid member 50, the distance from the upper surface of the feeding element 62a to the upper surface of the lid member 50 can be reduced, so that the feeding element can be reduced. It is possible to reduce the degree of attenuation of the radio wave E transmitted from 62a by the lid member 50, and it is possible to improve the communication performance of wireless communication.

<8th Embodiment>
FIG. 9 shows an eighth embodiment of the present invention, and is a cross-sectional view for explaining a wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 8 of the eighth embodiment, the power feeding element 62a is embedded inside the lid member 50.

As described above, according to the wireless communication structure 8 of the eighth embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the power feeding element 62a is embedded inside the lid member 50.

As a result, the lid member 50 and the feeding element 62a can be treated as one component, so that the assembly man-hours can be reduced and the manufacturing cost can be reduced.

<9th embodiment>
FIG. 10 shows a wireless communication structure according to a ninth embodiment of the present invention, and is a cross-sectional view for explaining the wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 9 of the ninth embodiment, the main body 61 constituting the wireless base station apparatus 60 is attached to the lower surface of the lid member 50, and the antenna portion 62 (feeding element 62a and non-feeding element 62b) is the lid member 50. It is embedded in.

As described above, according to the wireless communication structure 9 of the ninth embodiment, the communicable communication area of the wireless communication terminal is changed according to the arrangement of the non-feeding element 62b with respect to the feeding element 62a, as in the first embodiment. Therefore, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and it is possible to improve the communication performance of wireless communication. Become.

Further, it is preferable that the radio base station apparatus 60 has a main body portion 61 that supplies electric power to the power feeding element 62a, and the main body portion 61 is attached to the lower surface of the lid member 50.

As a result, when the lid member 50 in which the antenna portion 62 is arranged is moved in order to move the antenna portion 62 in the extending direction of the underground space 40, the radio base station device 60 can be moved at the same time, and the underground space can be moved. It is possible to freely change the arrangement of the antenna portion 62 in the extending direction of the 40.

<10th Embodiment>
11 and 12 show a tenth embodiment of the present invention. FIG. 11 is a plan view for explaining the wireless communication structure, and FIG. 12 is a cross-sectional view for explaining the wireless communication structure. The same components as those in the first embodiment are designated by the same reference numerals.

In the wireless communication structure 10 of the tenth embodiment, the antenna portion 62 functions as a feeder element 62a that functions as a radiator and a first non-feeding element that functions as a waveguide arranged on one side in the horizontal direction of the feeding element 62a. It is composed of two types of non-feeding elements 62b1 and 62b2, a 62b1 and a second non-feeding element 62b2 that functions as a reflector arranged on the other side of the feeding element 62a in the horizontal direction, and constitutes a so-called Yagi-Uda antenna. is doing.

The feeding element 62a is formed in a rod shape having a length half the wavelength of the radio wave E, and is embedded in the upper surface side of the lid member 50 so that the longitudinal direction is along the upper surface of the lid member 50. The power feeding element 62a is connected to the main body 61 via the connection line 63, and power is supplied from the main body 61.

The first non-feeding element 62b1 is formed in a rod shape shorter than half the wavelength of the radio wave E, is oriented in parallel with the feeding element 62a, and is embedded in the upper surface side of the lid member 50. The first non-feeding element 62b1 is arranged at a distance of one-fourth of the wavelength of the radio wave E with respect to the feeding element 62a.

The second non-feeding element 62b2 is formed in a rod shape longer than half the wavelength of the radio wave E, and is embedded in the upper surface side of the lid member 50 in a direction parallel to the feeding element 62a on the side opposite to the first non-feeding element 62b1. It has been. The second non-feeding element 62b2 is arranged at a distance of one-fourth of the wavelength of the radio wave E with respect to the feeding element 62a.

In the wireless communication structure 10 configured as described above, in the wireless base station device 60, the antenna unit 62 has a feeding element 62a, a first non-feeding element 62b1 and a second non-feeding element 62b2, and the feeding element 62a. The first non-feeding element 62b1 and the second non-feeding element 62b2 are arranged at intervals on both sides in the radial direction. As a result, the antenna unit 62 can have a communication area diagonally above the side where the first non-feeding element 62b1 is located due to the relationship between the feeding element 62a and the first and second non-feeding elements 62b1 and 62b2. Become.

As described above, according to the wireless communication structure 10 of the tenth embodiment, as in the first embodiment, the communication of the wireless communication terminal is performed according to the arrangement of the first and second non-feeding elements 62b1 and 62b2 with respect to the feeding element 62a. Since it is possible to change the possible communication area, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and the communication performance of wireless communication is possible. Can be improved.

Further, the non-feeding element is arranged on one side of the feeding element 62a in the horizontal direction and functions as a waveguide, and the non-feeding element 62b1 is arranged on the other side of the feeding element 62a in the horizontal direction as a reflector. It is preferable that it is composed of a second non-feeding element 62b2 that functions and two types of non-feeding elements 62b1 and 62b2.

As a result, the so-called Yagi-Uda antenna is configured by the feeding element 62a, the first non-feeding element 62b1 and the second non-feeding element 62b2, and the directivity can be further improved.

<11th Embodiment>
FIG. 13 shows the eleventh embodiment of the present invention, and is a cross-sectional view for explaining a wireless communication structure. The same components as those of the first and tenth embodiments are designated by the same reference numerals.

In the wireless communication structure 11 of the eleventh embodiment, similarly to the wireless communication structure 10 of the tenth embodiment, the antenna portion 62 is arranged on one side of the feeding element 62a functioning as a radiator and the feeding element 62a in the horizontal direction. It has a first non-feeding element 62b1 that functions as a waveguide and a second non-feeding element 62b2 that functions as a reflector arranged on the other side in the horizontal direction of the feeding element 62a, so-called Yagi-Uda. It constitutes an antenna.

In the wireless communication structure 11 of the eleventh embodiment, the feeding element 62a and the first and second non-feeding elements 62b1 and 62b2 are embedded in the lid member 50 at horizontal intervals, respectively, but the first non-feeding element The 62b1 is arranged above the feeding element 62a, and the second non-feeding element 62b2 is arranged below the feeding element. As a result, the feeding element 62a, the first and second non-feeding elements 62b1, 62b2 are arranged in the order of the second non-feeding element 62b2, the feeding element 62a, and the first non-feeding element 62b1 diagonally upward. ing.

In the wireless communication structure 11 configured as described above, similarly to the wireless communication structure 10 of the tenth embodiment, the antenna unit 62 is based on the relationship between the feeding element 62a and the first and second non-feeding elements 62b1 and 62b2. The communication area can be diagonally above the side where the first non-feeding element 62b1 is located. Further, the antenna unit 62 can change the direction in which the strength of the radio wave E increases by changing the arrangement of the first and second non-feeding elements 62b1 and 62b2 in the vertical direction with respect to the feeding element 62a. Become.

As described above, according to the wireless communication structure 11 of the eleventh embodiment, as in the first embodiment, the communication of the wireless communication terminal is performed according to the arrangement of the first and second non-feeding elements 62b1 and 62b2 with respect to the feeding element 62a. Since it is possible to change the possible communication area, it is possible to reliably set a place where wireless communication is required, such as a roadway in a direction other than directly above the lid member 50, as a communication area, and the communication performance of wireless communication is possible. Can be improved.

Further, the non-feeding element is arranged on one side of the feeding element 62a in the horizontal direction and functions as a waveguide, and the non-feeding element 62b1 is arranged on the other side of the feeding element 62a in the horizontal direction as a reflector. It is preferable that it is composed of a second non-feeding element 62b2 that functions and two types of non-feeding elements 62b1 and 62b2.

As a result, the so-called Yagi-Uda antenna is configured by the feeding element 62a, the first non-feeding element 62b1 and the second non-feeding element 62b2, and the directivity can be further improved.

In the tenth and eleventh embodiments, one first non-feeding element 62b1 is arranged on one side in the horizontal direction of the feeding element 62a, but the present invention is not limited to this. For example, a plurality of first non-feeding elements 62b1 may be arranged on one side of the feeding element 62a in the horizontal direction to improve the strength of the radio wave E to be transmitted and the receiving sensitivity of the radio wave E.

In the first to eleventh embodiments, the entire lid member 50 is made of resin, but the present invention is not limited to this. As for the lid member, only the part where the feeding element and the non-feeding element of the antenna portion are arranged, or only the part located directly above and near the feeding element housed in the underground space and near the feeding element and the vicinity of the non-feeding element is resin. It may be formed by. That is, as long as the portion of the lid member through which the radio wave radiated from the radio base station device is transmitted is formed of resin, the other portion may not be formed of resin, for example, it is formed of concrete or the like. May be.

Further, in the first to eleventh embodiments, the bottom and side portions of the underground space 40 are formed by the resin U-shaped groove 41, but the present invention is not limited to this. The bottom and sides of the underground space 40 may be formed of other members such as concrete. That is, the underground space may be entirely formed of other members such as concrete, or a part of the area may be formed of other members such as concrete.

Further, in the first to eleventh embodiments, the feeding element 62a of the antenna portion 62 is shown to be arranged in the underground space 40 or the lid member 50, but the present invention is not limited to this. The feeding element of the antenna portion may be housed inside the main body portion installed in the underground space, for example.

Further, in the first to ninth embodiments, the antenna portion 62 is shown to be composed of one feeding element 62a and one non-feeding element 62b, but the present invention is not limited to this. If the orientation of the communication area can be changed above the lid member 50, a plurality of non-feeding elements may be arranged for one feeding element, or one or a plurality of feeding elements may be arranged. A non-feeding element may be arranged.

1 to 11 Wireless communication structure 20 Communication line 30 Power line 40 Underground space 40a Opening 50 Lid member 50a Mounting groove 50b Mounting groove 50c Mounting groove 50d Recess 50e Fitting hole 50f Recess 51 Fastening member 60 Wireless base station device 61 Main body 62 Antenna Part 62a Feeding element 62b Non-feeding element 62b1 First non-feeding element 62b2 Second non-feeding element G Ground

Claims (8)

1. Communication lines or power lines housed in an underground space with an opening along the ground,
   A lid member that closes the opening and
   A radio base station device having an antenna unit used for transmitting or receiving radio waves, and
   The antenna portion is
   With at least one feeding element provided in the lid member or the underground space and supplied with electric power,
   A wireless communication structure having at least one non-feeding element, which is arranged apart from the feeding element in the lid member and changes the directivity of the feeding element.
2. The wireless communication structure according to claim 1, wherein the non-feeding element is detachably provided with respect to the lid member, and the attachment position of the lid member can be changed.
3. The wireless communication structure according to claim 1 or 2, wherein the non-feeding element is fixed to the lid member by a fastening member.
4. The wireless communication structure according to any one of claims 1 to 3, wherein the feeding element is attached to the lid member by fitting into a fitting hole formed on the lower surface side of the lid member.
5. The wireless communication structure according to any one of claims 1 to 3, wherein the power feeding element is attached to a recess formed on the lower surface side of the lid member.
6. The wireless communication structure according to any one of claims 1 to 3, wherein the feeding element is embedded inside the lid member.
7. The radio base station apparatus has a main body portion that supplies electric power to the power feeding element.
   The wireless communication structure according to any one of claims 4 to 6, wherein the main body is attached to the lower surface of the lid member.
8. The at least one non-feeding element is
   The first non-feeding element, which is arranged on one side in the horizontal direction of the feeding element and functions as a director,
   The item according to any one of claims 1 to 7, wherein the second non-feeding element is arranged on the other side in the horizontal direction of the feeding element and functions as a reflector, and two types of non-feeding elements. Wireless communication structure.

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