JP2005072645A - Retransmission antenna for home gap filler and indoor reception antenna - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a stable reception environment indoors in which the necessity of independently securing an installation space for a retransmission antenna to be installed in a house is eliminated, the antenna is inexpensive, and the installation and maintenance is easily performed. <P>SOLUTION: Antenna elements 41a, 41b each made of a conductive film are stuck on the inside of the cover 31 of a circular fluorescent lamp 32, and tips 422a, 422b of feeding parallel metal plates 421a, 421b extending in a perpendicular direction from the bottom of a ceiling attaching portion 33 of the cover 31 is made to face the antenna elements 41a, 41b, so that a non-contact capacitance coupling portion using air as a dielectric may be formed between the ends 422a, 422b of the parallel metal plates 421a, 421b and the antenna elements 41a, 41b. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a home gap filler retransmission antenna and an indoor reception antenna that constitute a terrestrial digital broadcast home gap filler device that is used, for example, to relay terrestrial digital broadcast waves indoors.
[0002]
[Prior art]
As a next-generation digital broadcasting system, development of digital terrestrial broadcasting using the current television band based on terrestrial waves is in progress. In this terrestrial digital broadcasting system, implementation of gap filler countermeasures is being studied for the purpose of expanding broadcasting service areas and eliminating difficult viewing areas.
In this gap filler countermeasure, a relay device called a gap filler is installed for each area where broadcast waves do not reach (for example, Patent Document 1 and Patent Document 2).
[0003]
By the way, in the terrestrial digital broadcasting system, as in the analog broadcasting system, there is a demand for a digital broadcasting wave that can be received by the indoor receiving antenna of the television receiver. Even in such a broadcasting system, implementation of measures against gap filler for the purpose of eliminating the difficult viewing area indoors in addition to the broadcasting service area will be considered.
Therefore, there has been proposed a home gap filler device for digital terrestrial broadcasting for allowing a terrestrial digital broadcast wave to be received indoors by a broadcast receiver having a known indoor reception antenna without being limited by the reception location.
[0004]
[Patent Document 1]
[Patent Document 1] Japanese Patent Laid-Open No. 2002-101032
[Patent Document 2]
JP 2003-78492 A.
[0006]
[Problems to be solved by the invention]
Since the above-mentioned home gap filler device has a simple configuration, there is an advantage that it is inexpensive. However, when this home gap filler device becomes widespread, a device that can be installed in a narrow house will be required, and in this case, the installation space must be taken into consideration.
[0007]
As a countermeasure for this installation space, it may be possible to install it on the back of the ceiling, but in that case it requires a specialist to install and maintain the antenna, and it is costly, and there is a conductive material in the ceiling member. In this case, there is a problem that the irradiation of radio waves into the room may be hindered.
[0008]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a home for realizing a stable reception environment that does not require a separate installation space as a re-transmission antenna installed in a house, is inexpensive and easy to install and maintain, and is indoors. It is an object of the present invention to provide a gap filler retransmission antenna and an indoor reception antenna.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is configured as follows.
(1) A terrestrial digital broadcast wave is received by a known indoor receiving antenna installed in a broadcast receiver, and the terrestrial digital broadcast wave is received by a receiving means installed outdoors, and a signal amplifying means. For a home gap filler used as a transmission means in a home gap filler device that amplifies the received signal to generate a retransmission signal of the same frequency and retransmits this retransmission signal toward the indoor reception antenna by the transmission means A re-transmission antenna, which is attached to the inside of a cover of a known luminaire installed indoors, is made of a transparent conductive film, and radiates a re-transmission signal to be fed, and one end thereof Is placed opposite the antenna element, and the retransmission signal obtained from the other end is allowed to pass through to one end of the antenna element. Capacitor having air as a dielectric by forming a gap between the antenna element part and one end of the feed line in a range that can handle a signal in the broadcast frequency band. The coupling part is configured.
[0010]
According to the configuration of (1), using an illuminating device installed in a house, an antenna element part that is a constituent part of a re-transmission antenna is attached to the inside of the cover of the illuminating device, and one end of the feed line Is integrated with the lighting fixture so as to face the antenna element portion, so that it is not necessary to secure a separate installation space for the re-transmission antenna in the house, and a stable reception environment can be provided. Furthermore, when the cover of the luminaire is fitted into the luminaire, the antenna element portion and the feed line are capacitively coupled in a non-contact manner, thereby facilitating installation / maintenance work.
[0011]
(2) Used to receive a terrestrial digital broadcast wave with a known indoor reception antenna installed in a broadcast receiver. The terrestrial digital broadcast wave is received by a reception unit installed outdoors, and is used as a signal amplification unit. The received signal is amplified to generate a retransmission signal of the same frequency, and this retransmission signal is retransmitted by the transmission means toward the indoor reception antenna. A transmitting antenna, which is attached to the inside of a cover of a known luminaire installed indoors, is made of a transparent conductive film, and radiates a retransmitted signal to be fed, and one end thereof It is placed facing the antenna element part, and the retransmission signal obtained from the other end part is passed to one end part to the antenna element part. Comprising a feed line for electric power supply line is a parallel plate which is formed an elastic portion at one end opposite to the antenna element portion, and in contact via the elastic portion with respect to the antenna element portion.
[0012]
According to the configuration of (2), by integrating the retransmission antenna with the luminaire, it is not necessary to separately secure a space for installing the retransmission antenna in the house, and a stable reception environment can be provided. When the cover of the antenna is fitted into the lighting fixture, the antenna element part and the feed line come into contact with each other through the elastic part, so that installation / maintenance work is facilitated and reliable feeding can be performed. No damage to either one of them will occur.
[0013]
(3) A reflector made of a conductive material is used for the ceiling mounting plate of the lighting fixture, and the retransmission signal radiated from the antenna element portion is reflected by the reflector so that the directing direction is directed indoors.
According to the configuration of (3), in order to obtain a stable reception environment indoors, the reflector is attached to the ceiling mounting position of the luminaire so as to realize unidirectionality indoors, that is, downward. It is possible to increase the electric field strength at the reception point.
[0014]
(4) The antenna element section includes a first antenna element and a second antenna element arranged orthogonal to the first antenna element, and the feed line transmits a retransmission signal to the first antenna element. In addition, the retransmission signal is phase-shifted by 90 ° and fed to the second antenna element, and the retransmission signal is radiated by the first and second antenna elements in the direction of the radial axis in a circularly polarized wave.
According to the configuration of (4), the antenna element is a cross dipole type, and the polarization plane and direction of the indoor receiving antenna are taken care of by making the polarization non-directional in the horizontal plane and circular in the radial direction. The broadcast receiver can be installed indoors at any position without having to do so.
[0015]
(5) Used to receive digital terrestrial broadcast waves with a known indoor receiving antenna installed in a broadcast receiver, and receives digital terrestrial broadcast waves by a receiving means installed outdoors, The received signal is amplified to generate a retransmission signal of the same frequency, and this retransmission signal is retransmitted by the transmission means toward the indoor reception antenna. A linear antenna element is constructed by attaching a conductive substance to a string of a string-like switch of a known lighting fixture installed indoors, and the lighting fixture is used as a feeding method for the linear antenna element. An unbalanced power supply was made with the ceiling mounting plate as a ground.
According to the configuration of (5), in addition to the cover of the lighting fixture, the cord portion of the cord-like switch such as a fluorescent lamp is used as a linear antenna, and it is easy to perform unbalanced power feeding using the lighting fixture mounting plate as a ground. Installation is possible, and further space saving can be achieved.
[0016]
(6) A terrestrial digital broadcast wave is received by a known indoor receiving antenna installed in a broadcast receiver, and the terrestrial digital broadcast wave is received by a receiving means installed outdoors, and a signal amplifying means For a home gap filler used as a transmission means in a home gap filler device that amplifies the received signal to generate a retransmission signal of the same frequency and retransmits this retransmission signal toward the indoor reception antenna by the transmission means A re-transmission antenna, which is attached to the inside of a cover of a known luminaire installed indoors, radiates a re-transmission signal to be fed, and re-sends to the first antenna element unit A second antenna element portion that is arranged at a distance of approximately ¼ wavelength of the signal and radiates a retransmitted signal to be fed; A first feed line that is connected to the antenna element section and passes a retransmission signal obtained from the other end section to one end section to feed power to the first antenna element section, and one end section is a second antenna And a second feed line that is connected to the element portion and phase-shifted by 90 ° from the retransmission signal obtained from the other end portion and passes through the one end portion to feed power to the second antenna element portion.
According to the configuration of (6), the two antenna element portions are arranged approximately 1/4 wavelength apart from the retransmission signal, and each antenna element is fed with a phase difference of 90 degrees, so that it is simply indoors, that is, downward. A circularly polarized wave having a unidirectional property and requiring no adjustment of the polarization plane on the receiving side can be generated.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a home gap filler device according to the present invention.
In FIG. 1, a terrestrial digital broadcast wave arriving from a transmitting station is received by a receiving antenna 11 attached outdoors, and the received signal is supplied to an amplifier 13 via a feeder 12. The amplifier 13 amplifies the input received signal to a predetermined amplitude level, and outputs the amplified signal as a retransmission signal to a retransmission antenna 14 installed indoors. Then, the retransmission antenna 14 radiates the input retransmission signal indoors as a retransmission wave.
Then, the television receiver 21 installed indoors receives the retransmitted wave with a known simple receiving antenna 22 and reproduces and displays the broadcast content.
[0018]
(First embodiment)
The first embodiment of the present invention relates to a retransmission antenna 14 for a home gap filler device.
FIG. 2A is a diagram showing the structure of the retransmission antenna 14 integrated with the lighting fixture as seen from the side, and FIG. 2B is a diagram showing the retransmission antenna 14 as seen from below.
[0019]
Reference numeral 31 denotes a cover of a circular fluorescent lamp (circular line) 32 with a cover used in a general home, and antenna elements 41a, 41b, 41c, and 41d are attached to the inside thereof. These antenna elements 41a, 41b, 41c, and 41d are attached without impairing the illumination effect by using a conductive film having transparency.
[0020]
Further, parallel metal plates 421a, 421b, 421c, and 421d for power feeding (only the parallel metal plates 421a and 421b are shown in FIG. 2) are extended from the lower surface of the ceiling mounting portion 33 of the cover 31 in the vertical direction. The tip portions 422a, 422b, 422c, 422d of the metal plates 421a, 421b, 421c, 421d are formed of a fan-shaped conductive material as shown in FIG. The bases of the parallel metal plates 421a, 421b, 421c, 421d are connected to the amplifier 13 via the ceiling mounting part 33.
[0021]
The tip portions 422a, 422b, 422c, and 422d of these parallel metal plates 421a, 421b, 421c, and 421d provide air as a dielectric by providing gaps between the opposing antenna elements 41a, 41b, 41c, and 41d. A non-contact capacitive coupling part is configured.
With this configuration, the retransmission signal output from the amplifier 13 passes through each parallel metal plate 421a, 421b, 421c, 421d, and each antenna element 41a, 41b, 41c, 41d at the non-contact capacitive coupling unit. The power is fed to and radiated indoors. For this reason, there is no need to check the contact state, and the retransmission signal can be reliably supplied to each antenna element 41a, 41b, 41c, 41d by simply attaching the cover 31 of the circular fluorescent lamp 32 with one touch. The replacement operation can be performed without paying attention to the connection to the re-transmission antenna 14 at the time of replacement. Further, the maintenance / replacement work of the retransmitting antenna 14 is also an indoor work and does not require any special skill.
[0022]
In addition, although the fan-shaped shape was illustrated as an example of the front-end | tip part 422a, 422b, 422c, 422d of the said parallel metal plate 421a, 421b, 421c, 421d, a predetermined effect is exhibited also in another shape like a square. Can do. Further, if the gaps between the tip portions 422a, 422b, 422c, 422d of the parallel metal plates 421a, 421b, 421c, 421d and the antenna elements 41a, 41b, 41c, 41d are made sufficiently small, the area of the coupling portion can be reduced. Even at most 1 cm ² , the predetermined performance can be sufficiently exhibited in the broadcast frequency band. Therefore, even if the capacitive coupling portion is made of an opaque conductive material, the reduction in the amount of light is considered to be within a practical range. Of course, if a transparent conductive film or the like is used, the amount of light can be further reduced.
[0023]
In addition, a conductive reflecting plate 43 is attached to the ceiling attaching portion 33. Normally, the antenna elements 41a, 41b, 41c, and 41d radiate a retransmitted wave to the ceiling side in addition to the floor direction, and thus have directivity characteristics as shown in FIG. Therefore, by reflecting the retransmitted wave radiated from the antenna elements 41a, 41b, 41c and 41d in the floor direction by the reflecting plate 43, the unidirectional characteristic in the floor direction is obtained as shown in FIG. It is possible to configure the retransmitting antenna 14 having the same.
[0024]
(Second Embodiment)
The second embodiment of the present invention relates to a retransmission antenna 14 for a home gap filler device.
FIG. 5 is a diagram illustrating the structure of the retransmission antenna 14 according to the second embodiment. In FIG. 5, the same parts as those in FIG. In other words, in the second embodiment, the spring portions 442a and 442b are formed at the tip ends of the parallel metal plates 441a and 441b for feeding. These spring portions 442a and 442b are formed by bending the tip portions of the parallel metal plates 441a and 441b so as to have elasticity.
[0025]
When the cover 31 of the circular fluorescent lamp 32 is attached to the ceiling in the state shown in FIG. 5A, the antenna elements 41a and 41b first come into contact with the heads of the spring portions 442a and 442b. As the fitting portion 33 is deeply fitted, the antenna elements 41a and 41b are strongly pressed against the spring portions 442a and 442b. For this reason, the spring portions 442a and 442b are displaced against the elastic force as shown in FIG.
[0026]
Therefore, according to the second embodiment, the same effects as those of the first embodiment can be obtained, and the antenna elements 41a and 41b can be obtained simply by attaching the cover 31 of the circular fluorescent lamp 32 to the ceiling attachment portion 33. And the parallel metal plates 441a and 441b are in contact with each other via the spring portions 442a and 442b, respectively, so that installation / maintenance work is facilitated and reliable power feeding can be performed, and the antenna elements 41a and 41b and the parallel metal plates 441a and 441b There is no need to damage either one.
In the second embodiment, if the reflecting plate 43 is used, it is possible to configure the retransmission antenna 14 having a unidirectional characteristic in the floor direction.
[0027]
(Third embodiment)
The third embodiment of the present invention relates to a retransmission antenna 14 for a home gap filler device.
FIG. 6 is a diagram illustrating a configuration of a retransmission antenna for a home gap filler device according to the third embodiment. In FIG. 6, the same parts as those in FIG.
[0028]
That is, in the third embodiment, the antenna type is an unbalanced monopole antenna system, and the radiating element 21 made of a sleeve-like conductive material is connected to the switch string of the circular fluorescent lamp 32 as shown in FIG. 34 is attached. As shown in FIG. 6B, the power supply to the radiating element 51 is made by connecting the ground of the output of the balanced / unbalanced conversion circuit 52 to the reflection plate 43, and the signal feeding side is connected to the radiating element 51 with the unbalanced power feeding portion 53 being connected. This is realized by connecting through the network. The unbalanced power feeding unit 53 has a surplus length so as to absorb the movement when the switch is turned on and off.
When the retransmission signal is fed unbalanced, the same effect can be achieved by placing an antenna matching circuit instead of the balanced / unbalanced conversion circuit 52.
[0029]
As described above, according to the third embodiment, in addition to the cover 31 of the circular fluorescent lamp 32, the radiating element 51 is attached to the switch string 34, and the reflector 43 is grounded to perform unbalanced power feeding. Installation becomes easy and further space saving can be achieved. In addition, there is no influence on the replacement of the circular fluorescent lamp 32. Furthermore, when the luminaire is replaced, the unbalanced power feeding portion 53 is temporarily removed, and it is only necessary to reconnect after replacing the luminaire. Is unnecessary.
[0030]
(Fourth embodiment)
The fourth embodiment of the invention relates to a retransmission antenna 14 for a home gap filler device.
FIG. 7 is a block diagram showing the configuration of the retransmission antenna 14 for the home gap filler device according to the fourth embodiment.
[0031]
In FIG. 7, reference numeral 61 denotes a dipole antenna, which radiates a fed retransmission signal in the floor direction as a retransmitted wave, and is orthogonal to the first antenna elements 611a and 611b. Second antenna elements 612a and 612b that are arranged and radiate in the floor direction as a retransmission signal that is also supplied with power are provided.
[0032]
The dipole antenna 61 is opposed to the dipole antenna 62 having the same structure. The dipole antenna 62 includes first antenna elements 621a and 621b (only the antenna element 621a is shown in FIG. 7) that radiates a fed retransmission signal in the floor direction as a retransmitted wave, and the first antenna elements 621a, 621a, Second antenna elements 622a and 622b (only the antenna element 622a is shown in FIG. 7) are arranged orthogonally to 621b and radiate similarly fed retransmission signals in the floor direction as retransmitted waves.
These dipole antennas 61 and 62 are arranged at a distance of about ¼ wavelength of the retransmission signal to be handled.
[0033]
The retransmission signal output from the amplifier 13 is distributed by the distributor 63, one signal is supplied to the distributor 65 via the feeder 64, and the other signal is 90 ° phase shifted by the 90 ° phase shifter 66. To the distributor 67. The distributor 65 distributes the signal from the feeder line 64, supplies one signal to the phase shifter 68, and supplies the other signal to the first antenna elements 611 a and 611 b of the dipole antenna 61 via the feeder line 69. Supply. The phase shifter 68 shifts the input signal by approximately 90 ° and outputs it to the second antenna elements 612 a and 612 b of the dipole antenna 61.
[0034]
The distributor 67 distributes the output of the 90 ° phase shifter 66, supplies one signal to the phase shifter 70, and supplies the other signal to the first antenna elements 621a, 621b of the dipole antenna 62 via the feeder line 71. To supply. The phase shifter 68 shifts the input signal by approximately 90 ° and outputs it to the second antenna elements 622 a and 622 b of the dipole antenna 62.
Then, circularly polarized waves are radiated from the respective dipole antennas 61 and 62, whereby a unidirectional retransmission antenna 14 that radiates radio waves only in one direction as shown in FIG. 8 can be configured. it can.
[0035]
As described above, according to the fourth embodiment, the two dipole antennas 61 and 62 are arranged apart from each other by about ¼ wavelength of the retransmission signal, and the dipole antennas 61 and 62 are fed with a phase difference of 90 degrees. By generating the circularly polarized wave, it is possible to configure the re-transmission antenna 14 having unidirectionality in the floor direction without using a reflector, and thus, the polarization plane and direction of the simple receiving antenna 22 can be considered. The television receiver 21 can be installed in a free position indoors without doing so.
[0036]
(Fifth embodiment)
The fifth embodiment of the present invention relates to a simple receiving antenna 22.
FIG. 9 is a diagram illustrating a configuration of the simple receiving antenna 22 according to the fifth embodiment.
In FIG. 9, reference numeral 81 denotes a dipole antenna. For the first antenna elements 811 a and 811 b that receive a retransmitted wave by circular polarization radiated from the retransmitting antenna 14, and for the first antenna elements 811 a and 811 b Second antenna elements 812a and 812b that are arranged orthogonally and receive retransmitted waves that are also circularly polarized are provided.
[0037]
The received signals obtained by the first antenna elements 811 a and 811 b are phase-shifted by 90 ° by the phase shifter 82 and then supplied to the combiner 83. In addition, the reception signals obtained by the second antenna elements 812 a and 812 b are supplied to the synthesizer 83 via the feeder line 84. The synthesizer 83 synthesizes the output of the phase shifter 82 and the received signal supplied via the feeder line 84 and supplies this synthesized signal to the television receiver 22.
According to the fifth embodiment, by configuring the simple receiving antenna 22 as a circularly polarized wave receiving antenna, the retransmitted wave radiated from the retransmitting antenna 14 can be received efficiently.
[0038]
(Other embodiments)
The present invention is not limited to the above embodiments. In the first, second, and fourth embodiments, an example of circular polarization using a cross dipole as an antenna element has been shown. However, a retransmission antenna using another type of antenna element may be used.
[0039]
Further, in the first embodiment, the example in which the reflector of the conductive material is attached to the ceiling and the wall surface to configure the reflector of the antenna is shown. When attached, it can be used as a reflector for the antenna.
In addition, the type and configuration of the retransmitting antenna, the type and configuration of the simple receiving antenna, the type of the feeder line, and the like can be variously modified and implemented without departing from the gist of the present invention.
[0040]
【The invention's effect】
As described above in detail, according to the present invention, it is not necessary to secure a separate installation space as a re-transmission antenna to be installed in a house, is inexpensive and easy to install and maintain, and provides a stable reception environment indoors. A retransmission antenna for a home gap filler and an indoor reception antenna can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a home gap filler device according to the present invention.
FIG. 2 is a diagram showing a configuration of a retransmission antenna for a home gap filler device according to the first embodiment of the present invention.
3 is a view showing the shape of the tip of the parallel metal plate shown in FIG. 2 and an antenna element. FIG.
4 is a diagram showing directivity characteristics of the antenna element shown in FIG. 2. FIG.
FIG. 5 is a diagram showing a configuration and a contact state of a retransmission antenna for a home gap filler device according to a second embodiment of the present invention.
FIG. 6 is a diagram showing a configuration of a retransmission antenna for a home gap filler device according to a third embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of a retransmission antenna for a home gap filler device according to a fourth embodiment of the present invention.
FIG. 8 is a diagram showing directivity of a retransmission antenna according to the fourth embodiment.
FIG. 9 is a diagram showing a configuration of a simple receiving antenna according to a fifth embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Reception antenna, 12 ... Feeder, 13 ... Amplifier, 14 ... Retransmission antenna, 21 ... Television receiver, 21 ... Television receiver, 22 ... Simple reception antenna, 31 ... Cover, 32 ... Circular fluorescent lamp, 34 ... Switch string, 41a. 41b ... antenna element, 43 ... reflecting plate, 51 ... radiating element, 52 ... unbalanced conversion circuit, 53 ... unbalanced feeding section, 61,62 ... dipole antenna, 63 ... distributor, 64 ... feeding line, 65 ... distributor , 66 ... Phaser, 67 ... Distributor, 68 ... Phaser, 69 ... Feeder, 70 ... Phaser, 71 ... Feeder, 82 ... Phaser, 83 ... Synthesizer, 84 ... Feeder, 421a, 421b ... Parallel metal plate, 422a, 422b ... tip, 441a. 441b ... parallel metal plate, 442a, 442b ... spring part, 611a, 611b ... first antenna element, 612a, 612b ... second antenna element, 621a, 621b ... first antenna element, 622a, 622b ... second Antenna element, 811a, 811b ... first antenna element, 812a, 812b ... second antenna element.

Claims (8)

It is used to receive terrestrial digital broadcast waves with a known indoor receiving antenna installed in a broadcast receiver. The terrestrial digital broadcast waves are received by receiving means installed outdoors, and the signal amplifying means receives the terrestrial digital broadcast waves. The received signal is amplified to generate a retransmission signal of the same frequency, and this retransmission signal is retransmitted by the transmission means toward the indoor reception antenna. A transmitting antenna,
An antenna element unit which is attached to the inside of a cover of a known lighting fixture installed indoors and which is made of a transparent conductive film and radiates the retransmission signal to be fed;
One end portion is disposed opposite to the antenna element, and includes a feeding line that feeds the antenna element portion by passing the retransmission signal obtained from the other end portion to one end portion,
A gap is formed between the antenna element part and one end of the feed line in a range where signals in a broadcast frequency band can be handled, so that a capacitive coupling part using air as a dielectric is configured. A retransmission antenna for a home gap filler, characterized by It is used to receive terrestrial digital broadcast waves with a known indoor receiving antenna installed in a broadcast receiver. The terrestrial digital broadcast waves are received by receiving means installed outdoors, and the signal amplifying means receives the terrestrial digital broadcast waves. The received signal is amplified to generate a retransmission signal of the same frequency, and this retransmission signal is retransmitted by the transmission means toward the indoor reception antenna. A transmitting antenna,
An antenna element unit which is attached to the inside of a cover of a known lighting fixture installed indoors and which is made of a transparent conductive film and radiates the retransmission signal to be fed;
One end portion is disposed opposite to the antenna element portion, and includes a feeding line that feeds the antenna element portion by passing the retransmission signal obtained from the other end portion to one end portion,
The feed line is a parallel plate in which an elastic part is formed at one end facing the antenna element part, and is in contact with the antenna element part via the elastic part. Retransmit antenna for filler. A reflector made of a conductive material is used for the ceiling mounting plate of the lighting fixture, and the retransmission signal radiated from the antenna element portion is reflected by the reflector so that the directivity direction is directed indoors. The retransmitting antenna for a home gap filler according to claim 1 or 2, characterized in that: The antenna element portion includes a first antenna element and a second antenna element arranged orthogonal to the first antenna element,
The feed line feeds the retransmission signal to the first antenna element, shifts the retransmission signal by 90 °, and feeds the second antenna element,
3. The retransmission antenna for home gap filler according to claim 1, wherein the retransmission signal is radiated by the first and second antenna elements in a circular polarization direction in a radial axis direction. It is used to receive terrestrial digital broadcast waves with a known indoor receiving antenna installed in a broadcast receiver. The terrestrial digital broadcast waves are received by receiving means installed outdoors, and the signal amplifying means receives the terrestrial digital broadcast waves. The received signal is amplified to generate a retransmission signal of the same frequency, and this retransmission signal is retransmitted by the transmission means toward the indoor reception antenna. A transmitting antenna,
A linear antenna element is constructed by attaching a conductive substance to the string of a string-like switch of a known lighting fixture installed indoors, and the ceiling mounting plate of the lighting fixture is used as a feeding method for the linear antenna element. A retransmitting antenna for a home gap filler, wherein unbalanced power is supplied as ground. It is used to receive terrestrial digital broadcast waves with a known indoor receiving antenna installed in a broadcast receiver. The terrestrial digital broadcast waves are received by receiving means installed outdoors, and the signal amplifying means receives the terrestrial digital broadcast waves. The received signal is amplified to generate a retransmission signal of the same frequency, and this retransmission signal is retransmitted by the transmission means toward the indoor reception antenna. A transmitting antenna,
A first antenna element unit which is attached to the inside of a cover of a known lighting fixture installed indoors and which radiates the retransmission signal to be fed;
A second antenna element unit that is arranged at a distance of approximately ¼ wavelength of the retransmission signal with respect to the first antenna element unit and radiates the supplied retransmission signal;
A first feed line that has one end connected to the first antenna element portion and passes the retransmission signal obtained from the other end to one end to feed power to the first antenna element portion When,
One end is connected to the second antenna element part, and the retransmission signal obtained from the other end part is phase shifted by 90 ° and passed to one end part to feed the second antenna element part. A retransmitting antenna for a home gap filler, comprising: Each of the first and second antenna element portions includes a first antenna element and a second antenna element arranged orthogonal to the first antenna element,
Each of the first and second feed lines feeds the retransmission signal to the first antenna element, shifts the retransmission signal by 90 °, and feeds the second antenna element,
7. The home gap filler according to claim 6, wherein the retransmission signal is radiated in a circular polarization in a radial direction by the first and second antenna elements of each of the first and second antenna element portions. Re-transmission antenna. An indoor receiving antenna for receiving a retransmitted wave transmitted from the home gap filler retransmitting antenna according to claim 4 or 6,
An antenna element unit having first and second antenna elements orthogonal to each other and receiving the retransmitted wave;
Phase shift means for shifting the received signal obtained by the first antenna element by 90 °;
An indoor receiving antenna comprising combining means for combining the signal phase-shifted by the phase-shifting means and the received signal obtained by the second antenna element and supplying the synthesized signal to a broadcast receiver. .

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