JPH1117590A - Induction line disconnection detection device and method, and radio rebroadcast system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect disconnection of an induction line which transmits AC signals and to prevent a minus ion from being drawn toward the induction line for prevention of rust by applying the minus DC voltage to the induction line with the ground side made a plus side and detecting the potential set between the induction line and the ground. SOLUTION: The radio broadcast signals received via an AM antenna are received by an AM receiving rack and turned into the sound signals. These sound signals are turned again into the original frequency signals by an AM broadcast rack and outputted via an induction line set in a tunnel. Thus, an AM receiver can operate in the tunnel. Meanwhile, an induction line disconnection detection unit 21 applies the minus DC voltage to the induction line with the ground side defined as a plus side. Then a detection part 25 of the unit 21 detects the potential set between the induction line and the ground and then detects the disconnection of the induction line based on the detected potential. Otherwise, the part 25 detects the current of the induction line and decides the disconnection of the induction line based on the detected current. When the part 25 decides the disconnection of the induction line, the part 25 sends a signal to a notification means 26 to notify the disconnection in sounds, the light display, etc.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example, an apparatus for detecting disconnection in a guide line for radio rebroadcasting and a method thereof, and further relates to a radio rebroadcasting system configured using the apparatus. .

[0002]

2. Description of the Related Art FIG. 6 shows a main part of a conventional apparatus for detecting a disconnection in a guide line for radio rebroadcasting. This device is attached to a system capable of receiving a radio broadcast in a tunnel or the like where radio waves do not reach, and includes transmitting units 12A and 12B for returning a received radio broadcast audio signal to an original frequency and transmitting the signal. A mixing unit 14 for mixing the signals output from the units 12A and 12B, and a signal mixed by the mixing unit 14 is guided to a guide wire (guide antenna wire) in a tunnel or the like, and the disconnection of the guide wire is detected. And a guide line break detection unit 15A.

[0003] The guide wire break detection unit 15A is provided with a transformer T1 for placing the output signal of the mixing unit 14 on the lines 29A and 29B. The signal on the secondary side of the transformer T1 is applied to the line 2 via the DC blocking capacitors C1 and C2.
It is sent to 9A and 29B. The lines 29A and 29B are connected to a guide line for emitting radio broadcast radio waves via the terminal unit 18. By receiving the radio waves emitted from the guide lines, the radio waves are originally generated as in a tunnel or the like. Radio broadcasts can be received even out of reach.

[0004] By the way, if the guide wire is broken, re-broadcasting of the radio cannot be performed. Therefore, to detect the wire break, a plus voltage is applied to the guide wire from the guide wire break detection unit 21A via the line 29A, and the line 29B The side is grounded. The guide wire disconnection detection unit 21A includes a power supply 28.
Current is obtained from the current source 22 by the rectifier and rectified by the diode bridge 23 to obtain a predetermined voltage.
The disconnection detection unit 27 applies a voltage from the terminal to the induction wire. Further, the voltage appearing between the point A and the point B is monitored by the voltage application / disconnection detecting section 27,
The current flowing through the point is monitored to detect whether or not the induction wire has been cut. The coils L1 and L2 are provided for blocking AC.

[0005]

However, according to the above-described conventional lead wire disconnection detecting device, since a positive voltage is applied to the lead wire, negative ions such as Cl ^- and SO ₄ ^-2 are generated. There was a problem that it was drawn and hurt the guide line. Specifically, as the guide wire, a conductor called an OW wire in which a copper wire is covered with vinyl is used, and negative ions adhere to the guide wire.
There was a problem in that vinyl was oxidized and melted, causing rust on the copper wire inside and melting.

The present invention has been made in order to solve the problems of such a conventional guide wire disconnection detecting device.
The object is to provide a guide wire disconnection detection device and method that can perform appropriate monitoring even when performing a guide wire disconnection detection with less damage to the guide wire, and furthermore,
An object of the present invention is to provide a radio rebroadcasting system using the same.

[0007]

According to a first aspect of the present invention, there is provided an apparatus for detecting a disconnection of an induction wire, wherein a DC voltage is applied to an induction wire for transmitting an AC signal by applying a negative DC voltage with the ground side being positive. Means, a potential detecting means for detecting a potential between the induction wire and the ground, and a guiding wire disconnection detecting means for detecting whether or not the guiding wire is disconnected based on the potential detected by the potential detecting means. And characterized in that: As a result, a negative DC voltage is applied to the induction wire, the potential between the induction wire and the ground can be detected to detect breakage of the induction wire, and further, it is possible to prevent negative ions from being attracted to the induction wire.

According to a second aspect of the present invention, there is provided an apparatus for detecting a disconnection of an induction wire, comprising: a DC voltage applying means for applying a negative DC voltage with the ground side being positive to an induction wire for transmitting an AC signal; A current detecting means for detecting the current, and an inductive wire disconnection detecting means for detecting whether or not the inductive wire is disconnected based on the current detected by the current detecting means. As a result, a negative DC voltage is applied to the induction wire, a break in the induction wire can be detected by detecting a current flowing through the induction wire, and further, it is possible to prevent negative ions from being attracted to the induction wire.

According to a third aspect of the present invention, there is provided an apparatus for detecting disconnection of a guide wire, wherein the guide wire is an electric wire formed by covering a copper wire with vinyl. Even if such an electric wire is used, deterioration of the vinyl coating due to negative ions can be prevented.

According to a fourth aspect of the present invention, there is provided a method for detecting a disconnection of an induction wire, wherein a negative DC voltage is applied to an induction wire for transmitting an AC signal, with the ground side being positive and the induction wire being connected between the induction wire and the ground. And detecting whether or not the guide wire is disconnected based on the detected potential. As a result, a negative DC voltage is applied to the induction wire, the potential between the induction wire and the ground can be detected to detect breakage of the induction wire, and furthermore, it is possible to prevent negative ions from being attracted to the induction wire.

According to a fifth aspect of the present invention, there is provided a method for detecting a disconnection of an induction wire, comprising applying a negative DC voltage to the induction wire for transmitting an AC signal, with the ground side being positive and detecting the current of the induction wire. And detecting whether or not the induction wire is broken based on the detected current.
This gives a negative DC voltage to the induction wire,
By detecting the current flowing through the induction wire, the breakage of the induction wire can be detected,
Moreover, it is possible to prevent the negative ions from being attracted to the guide wire.

A method for detecting disconnection of a guide wire according to a sixth aspect of the present invention is characterized in that the guide wire is an electric wire formed by covering a copper wire with vinyl. Even if such an electric wire is used, deterioration of the vinyl coating due to negative ions can be prevented.

According to a seventh aspect of the present invention, there is provided a radio rebroadcasting system which receives a radio broadcast and converts it into an audio signal, and transmits a signal vocalized by the receiver at a frequency of the received broadcast. A transmitting unit, a guide wire for transmitting a signal transmitted from the transmitting unit, a DC voltage applying unit for applying a negative DC voltage with the ground side being positive with respect to the guide line, and It is characterized by comprising potential detecting means for detecting a potential between them, and a lead wire disconnection detecting means for detecting whether or not the guide wire is disconnected based on the potential detected by the potential detecting means. As a result, the radio can be rebroadcast, and a negative DC voltage is applied to the induction wire, and the potential between the induction wire and the ground can be detected to detect a break in the induction wire. The ions can be prevented from being attracted to the guide wire.

A radio rebroadcasting system according to an eighth aspect of the present invention is a radio rebroadcasting system which receives a radio broadcast and converts it into an audio signal, and transmits a signal vocalized by the receiving unit at a frequency of the broadcast received. A transmitting unit, a guide wire for transmitting a signal transmitted from the transmitting unit, a DC voltage applying unit for applying a negative DC voltage with the ground side being positive with respect to the guide line, and detecting a current of the guide line. A current detecting means for detecting whether or not the induction wire is broken based on the current detected by the current detecting means. As a result, the radio can be rebroadcast, a negative DC voltage is applied to the induction line, and the current flowing through the induction line can be detected to detect the breakage of the induction line. Can be prevented.

A radio rebroadcasting system according to a ninth aspect of the present invention is characterized in that the guide wire is an electric wire formed by covering a copper wire with vinyl. Even if such an electric wire is used, deterioration of the vinyl coating due to negative ions can be prevented.

A radio rebroadcasting system according to a tenth aspect of the present invention is characterized in that the guide line is provided in a tunnel and functions as a guide antenna line. This enables radio rebroadcast in the tunnel, and prevents negative ions generated from cars and the like in the tunnel from being attracted to the guide line.

[0017]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a radio line re-broadcasting system according to an embodiment of the present invention; In the drawings, the same components are denoted by the same reference numerals, and redundant description will be omitted. FIG. 2 shows a configuration diagram of the radio rebroadcasting system according to the embodiment of the present invention. This system uses A
An AM broadcast signal is fetched via M (amplitude modulation) antennas 1A and 1B and guided to the rebroadcasting apparatus 2. The rebroadcasting apparatus 2 is provided with an AM receiving frame 4 and an AM broadcasting frame 5. The AM receiving frame 4 reproduces the audio signal of the broadcast content from the signals received from the AM antennas 1A and 1B, and the AM broadcasting frame 5 converts the reproduced audio signal into a radio broadcast signal of the original frequency. It has the function of sending.

A matching device 6 is provided at one end of the tunnel 3 to receive a radio broadcast signal transmitted from the AM broadcast frame 5. A guiding wire 8 is provided from the matching device 6 along, for example, a ceiling in the tunnel 3, and reaches a terminating resistor 7 provided at the other end of the tunnel 3. The guide wire 8 provided between the matching device 6 and the terminating resistor 7 has a function of an antenna, so that AM broadcast can be received in the tunnel 3.

FIG. 3 shows the detailed configuration of the AM broadcast frame 5 described above. The AM broadcast frame 5 is provided with a broadcast switching unit 11 for receiving an audio signal transmitted from the AM receiving frame 4, and an operation control unit 13 for performing switching control is connected to the broadcast switching unit 11. ing. The operation control unit 13 is provided with various keys for switching control, a microphone for performing interrupt broadcasting, and the like. The audio signal transmitted from the AM receiving frame 4 is passed as it is, or The switching control of whether to perform is performed. On the output side of the broadcast switching unit 11, transmitting units 12A and 12A for returning to a radio broadcast signal of the original frequency for transmission.
B is provided. The transmitting units 12A and 12B are provided with a mixing unit 14 for mixing signals output from the respective units. The output side of the mixing unit 14 is provided with a guide wire disconnection detection unit 15, and the output is sent to the matching unit 6. The power is supplied from an external power supply 17 to the power supply unit 16 to the AM broadcast frame 5, and the power is supplied to each unit of the AM broadcast frame 5.

FIG. 1 shows the internal structure of the above-described guide wire break detection unit 15. A transformer T1 is provided in the guide line disconnection detecting unit 15, and a signal from the mixing unit 14 is placed on the lines 29A and 29B via the capacitors C1 and C2, and sent out to the guide line 8 in FIG. It is configured to be. Further, the induction wire break detection unit 21 is connected to the lines 29A and 29B via the coils L1 and L2 for blocking direct current. This guide wire disconnection detection unit 2
1 obtains a current from a current source 22 by a power supply unit 16, rectifies the current by a diode bridge 23, obtains a predetermined voltage, and applies a negative DC voltage to the induction wire 8 of FIG. DC voltage applying means 2 for applying voltage
4 is provided.

Further, the induction wire breakage detection unit 21 includes a potential detection means including an operational amplifier for detecting a potential between the induction wire 8 and the ground, and the above-described induction based on the potential detected by the potential detection means. The detecting unit 25 includes a guiding line disconnection detecting unit including a comparator or the like that detects whether the line 8 is disconnected. Further, in place of the potential detecting means, a current detecting means including a current transformer and an operational amplifier for detecting the current of the induction wire 8 is provided, and based on the current detected by the current detecting means,
It is also possible to adopt a configuration in which whether or not the guide wire 8 is broken is detected by a guide wire break detection unit. 26
Indicates a notifying unit, and a signal is sent from the detecting unit 25 to the notifying unit 26 when the guide wire 8 is disconnected, so that the disconnection can be notified (display of sound, light, or the like).

The radio rebroadcasting system configured as described above operates as follows. AM antenna 1A, 1B
AM radio broadcast signal captured by
, Is converted into an audio signal, converted into an original frequency signal again in the AM broadcast frame 5, emitted from the guide wire 8 provided in the tunnel 3, and received by the AM radio receiver in the tunnel 3. Will be able to.

On the other hand, a negative DC voltage is applied to the induction wire 8 from the induction wire break detection unit 21 with the ground side being positive, and power is consumed by the terminating resistor 7. At this time, the detection unit 25 of the guide wire disconnection detection unit 21 detects a potential between the guide wire 8 and the ground, and detects whether or not the guide wire 8 is disconnected based on the detected potential. . Alternatively, the current of the induction wire 8 is detected, and whether or not the induction wire 8 is broken is detected based on the detected current. When the detection unit 25 detects that the guide wire 8 is disconnected, a signal is sent to the notifying unit 26, and notification of the disconnection (display of sound, light, or the like) can be performed.

Considering the environment of the tunnel, the following can be considered. (1) Mist is often generated in a tunnel in a mountainous area, and the guide wire is kept wet for a long time. (2) Bridges are often provided at the entrances and exits of tunnels, and antifreeze is sprayed. (3) The natural water in the tunnel may contain SO ₄ . (4) On the facing traffic road, the wind easily flows from the entrance and exit of the tunnel toward the center, and stagnation of exhaust gas and the like is observed in the center. (5) It is hot and humid near the sea, especially in summer.

On the other hand, the following points can be pointed out from the observation of the guide wire laid in the tunnel. (1) Na (sodium), Ca
(Calcium), Cl (chlorine), SO ₄ (sulfuric acid), Cu
Many (copper) salts are detected. (2) Rust is seen on the exposed copper portion where the coating is damaged and Cl (chlorine), SO ₄ (sulfuric acid) or the like adheres. For example, Cu (O
H) ₂ , Cu ₂ CO ₃ (OH), Cu ₂ Cl ₂ .2H ₂
O, a Cu SO ₄ · 5H ₂ O and the like. (3) Water containing electrolytic ions of Cl (chlorine) and SO ₄ (sulfuric acid) entered between the vinyl coating and the copper portion, and rusting was observed.
(4) Conventionally, since a positive potential is applied for detecting disconnection, it is considered that negative ions are attracted to lead to rust. (5) NaOH (sodium hydroxide),
NaHCO ₃ (sodium hydrogen carbonate), NaSiO
_If a strong alkaline detergent such as ₃ (sodium silicate) or a detergent containing an ammonium salt or an amine is used, rust is easily generated.

In order to confirm each of the above points, since a large amount of Cl (chlorine) was detected from the result of analyzing the sample of the product in which the accident occurred, the OW wire which is a vinyl-coated copper wire and the polyethylene-coated copper wire were used. For the OE line, a 500-hour salt spray test was performed to reproduce a rusting state using a salt spray tester shown in FIG.

That is, a positive potential is applied to an object to be measured using an OW line and an OE line in a salt spray tester 30 having a spray section 31 for spraying salt water, and a minus is applied to the bare wire. The potential is 9V. The result is shown in FIG.

The results are summarized as follows. (1) OW line a) Regarding the intact and scraping of the coated surface with a cutter, slightly darkened oxidation was observed on the surface. b) If the coating surface is scratched with a file,
Compared to a), it was significantly oxidized, and some patina was generated. c) Pinholes, cuts, coating removal, etc.
Patina was generated from the portion where the copper portion was exposed. (2) OE wire No influence is seen on the pinholes and cuts in the coating, and no darkened oxidation is observed on the surface. (3) The difference between the + side and the-side of the bare copper wire (OW line) on the electrode side is significantly greenish blue on the + electrode side and the copper part is slightly thinner than the-side. (4) Patina There is rust on the OW line of the object to be measured and rust flowing down on the bottom of the salt spray tester.

Considerations based on the above test results are as follows. (1) A patina is produced when Cu (copper), Cl (chlorine), and H ₂ O (water) react. (2) The patina has soluble rust and insoluble rust in water, and the patina at the exposed portion of the OW line is a copper compound of Cu (OH) ₂ (copper hydroxide) and Cu ₂ CO ₃ (OH) ₂ (carbonic acid). Green copper which is soluble CuCl ₂ .2H ₂ O
(Copper chloride dihydrate). (3) Regarding the OW wire, even if the copper part is not exposed, the surface is darkened (CuO (copper oxide)) and the surface of the coating is roughened by a file (increase in surface area). It is considered that the phenomenon of water and chlorine permeation into the vinyl has occurred. (4) The cause of remarkable patina on the bare copper wire on the + (plus) electrode side is that the positive ions Cu (copper) react with the negative ions Cl (chlorine) and SO ₄ (sulfuric acid), which are rusting factors. Then, it is considered that negative ions were attracted by applying a positive voltage to the copper wire, and rust was accelerated.

Therefore, it has been proved from the above experimental results that it is desirable to keep the potential at zero or minus potential with respect to the ground when a direct current is applied to the OW line. For this reason, by applying a negative DC voltage to the induction wire with the ground side being positive as in the present invention, rebroadcasting of the radio can be performed, and a negative DC voltage is applied to the induction wire. It was confirmed that the negative ions could be prevented from being attracted to the guide wire, and that rusting, and furthermore, disconnection and the like were unlikely to occur.

[0031]

As described above, according to the lead wire disconnection detecting device of the first aspect, a negative DC voltage is applied to the lead wire for transmitting an AC signal, with the ground side being plus and the lead wire being applied. Since it is designed to detect whether or not the disconnection is caused by the voltage of the lead wire, a negative DC potential is applied to the induction wire, and the potential between the induction wire and the ground can be detected to detect the disconnection of the induction wire, Moreover, it is possible to prevent the negative ions from being attracted to the guide wire, thereby preventing rust and disconnection.

As described above, according to the induction wire disconnection detecting device of the present invention, a negative DC voltage is applied to the induction wire for propagating an AC signal, with the ground side being positive and flowing to the induction wire. Since it is detected whether or not the current is broken, a negative DC potential is applied to the induction wire, and the current flowing through the induction wire can be detected to detect the breakage of the induction wire. It can be prevented from being attracted to the guide wire, thereby preventing rust and disconnection.

As described above, according to the lead wire disconnection detecting device of the third aspect, even if the lead wire is made of a copper wire covered with vinyl, the vinyl-coated negative ion can be used. Degradation can be prevented.

As described above, according to the method for detecting disconnection of an induction wire according to the fourth aspect, a negative DC voltage is applied to an induction wire for transmitting an AC signal, with the ground side being positive and the voltage of the induction wire being applied. Because it is configured to detect whether or not the wire is disconnected, a negative DC potential is applied to the induction wire, and the potential between the induction wire and the ground can be detected to detect the breakage of the induction wire. Negative ions can be prevented from being attracted to the guide wire, and rust generation and disconnection can be prevented.

As described above, according to the method for detecting a disconnection of an induction wire according to the fifth aspect, a negative DC voltage is applied to an induction wire for transmitting an AC signal, with the ground side being positive and flowing through the induction wire. Since it is detected whether or not the current is broken, a negative DC potential is applied to the induction wire, and the current flowing through the induction wire can be detected to detect the breakage of the induction wire. It can be prevented from being attracted to the guide wire, thereby preventing rust and disconnection.

As described above, according to the method for detecting disconnection of a guide wire according to the sixth aspect, even if the guide wire is an electric wire formed by coating a copper wire with vinyl, the vinyl-coated negative ion can be used. Degradation can be prevented.

As described above, according to the radio rebroadcasting system of the seventh aspect, the radio broadcast is received, transmitted at the frequency of the received broadcast, and grounded with respect to the guide wire for transmitting the transmitted signal. Since a negative DC voltage is applied with the plus side, radio rebroadcasting can be performed, and a negative DC potential is given to the induction wire, and the potential between the induction wire and the ground is detected to induce the induction. A break in the line can be detected, and furthermore, it is possible to prevent negative ions from being attracted to the induction line.

As described above, according to the radio rebroadcasting system according to the eighth aspect, the radio broadcast is received, transmitted at the frequency of the received broadcast, and the guide wire for transmitting the transmitted signal is grounded. Since a negative DC voltage is applied with the positive side, the radio can be rebroadcasted, and a negative DC potential is applied to the induction wire, and the current flowing through the induction wire is detected to cut off the induction wire. Detection can be performed, and negative ions can be prevented from being attracted to the guide wire.

As described above, according to the radio rebroadcasting system of the ninth aspect, even if the guide wire is an electric wire formed by coating a copper wire with vinyl, it can be formed by negative ions of vinyl coating. Deterioration can be prevented.

As described above, according to the radio rebroadcast system of the tenth aspect, since the guide line is provided in the tunnel and functions as a guide antenna line, the radio rebroadcast in the tunnel is enabled. In addition, it is possible to prevent negative ions generated from an automobile or the like in the tunnel from being attracted to the guide line.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of a radio rebroadcast system according to an embodiment of the present invention.

FIG. 2 is a diagram showing a main configuration of a radio rebroadcast system according to the embodiment of the present invention.

FIG. 3 is a diagram showing a configuration of a guide wire disconnection detection device according to an embodiment of the present invention.

FIG. 4 is a configuration diagram of a salt spray tester for a reproduction test of a rusting state used in the present invention.

FIG. 5 is a diagram showing the results of the tester of FIG.

FIG. 6 is a diagram showing a configuration of a conventional guide wire disconnection detection device.

[Explanation of symbols]

REFERENCE SIGNS LIST 1A, 1B AM antenna 2 Rebroadcasting device 3 Tunnel 4 AM receiving frame 5 AM broadcasting frame 6 Matching device 7 Terminating resistor 15 Induction wire disconnection detection unit 21 Induction wire disconnection detection unit 24 DC voltage application unit 25 Detection unit 26 Notification unit

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Hideaki Kawase 3-1-1 Asahigaoka, Hino-shi, Tokyo Toshiba Communication Systems Engineering Co., Ltd.

Claims (10)

[Claims] 1. A DC voltage applying means for applying a negative DC voltage with the ground side being positive to an induction wire for transmitting an AC signal, and a potential detection means for detecting a potential between the induction wire and the ground. An induction wire disconnection detection device, comprising: an induction wire disconnection detection device that detects whether or not the induction wire is disconnected based on the potential detected by the potential detection device. 2. A DC voltage applying means for applying a negative DC voltage with the ground side being positive to an induction wire for transmitting an AC signal; a current detection means for detecting a current of the induction wire; And a guide wire disconnection detecting means for detecting whether or not the guide wire is disconnected based on the detected current. 3. The guide wire disconnection detecting device according to claim 1, wherein the guide wire is an electric wire formed by covering a copper wire with vinyl. 4. Applying a negative DC voltage with the ground side being positive to an induction wire for transmitting an AC signal, detecting a potential between the induction wire and the ground, and based on the detected potential, A method for detecting disconnection of a guide line, comprising detecting whether or not the guide line is disconnected. 5. An inductive wire for propagating an AC signal is applied with a negative DC voltage with the ground side being positive, detecting a current in the inductive wire, and breaking the inductive wire based on the detected current. An inductive wire disconnection detecting device, which detects whether or not there is a disconnection. 6. The method according to claim 4, wherein the guide wire is an electric wire formed by covering a copper wire with vinyl. 7. A receiving unit that receives a radio broadcast and converts it into an audio signal, a transmitting unit that transmits a signal vocalized by the receiving unit at a frequency of the received broadcast, and a signal that is transmitted from the transmitting unit. An induction wire to be propagated; DC voltage applying means for applying a negative DC voltage with the ground side being positive with respect to the induction wire; potential detection means for detecting a potential between the induction wire and the ground; A radio rebroadcasting system comprising: a guide line disconnection detecting unit that detects whether or not the guide line is disconnected based on a potential detected by the detecting unit. 8. A receiving unit that receives a radio broadcast and converts it into an audio signal, a transmitting unit that transmits a signal vocalized by the receiving unit at a frequency of the received broadcast, and a signal that is transmitted from the transmitting unit. An induction wire to be propagated; a DC voltage applying means for applying a negative DC voltage with the ground side being positive with respect to the induction wire; a current detection means for detecting a current of the induction wire; A radio rebroadcasting system comprising: a guide line disconnection detecting unit that detects whether or not the guide line is disconnected based on an electric current. 9. The radio rebroadcasting system according to claim 7, wherein the guide wire is an electric wire formed by covering a copper wire with vinyl. 10. The guide line according to claim 7, wherein the guide line is provided in a tunnel and functions as an induction antenna line.
10. The radio rebroadcast system according to any one of claims 9 to 9.