DE3203953A1 - Antenna system, especially for the direct reception of television and/or radio programmes emitted via satellites - Google Patents

Abstract

An antenna system consisting of a directional antenna and covering cap is proposed, in which the covering cap is constructed to be essentially parallelepiped in shape, so that the antenna system is similar in appearance to a heating chimney when installed on a house roof or garage roof, or to a refuse container or the like when installed at ground level. In addition to protection against rain, snow, hail, ice, storms and wind, the cover according to the invention also offers adequate corrosion protection for the directional antenna located underneath it, so that the directional antenna can be provided with mechanical actuating elements for automatic slaving to transmitters with different orbital positions and/or for mechanical polarisation changeover switching to transmitters with left-hand and right-hand circular-polarised radiation, which elements have high reliability and a long life because of the corrosion protection effect of the covering cap. As a consequence of their appearance being linked to the landscape, the antenna system according to the invention offers the capability for erection even where antennas are officially forbidden.

Description

ANTENNA SYSTEM, IN PARTICULAR FOR THE

DIRECT RECEPTION FROM TELEVISION AND / OR BROADCASTED BY SATELLITE LISTENING RADIO PROGRAMS The invention relates to an antenna system according to the Preamble of claim 1.

For direct reception of television and / or radio programs that are expected to be from 1985 from geostationary satellites with a carrier frequency of 11.7 to 12.5 GHz are to be broadcast, directional antennas are required, which consist of a parabolic or cylindrical reflector, a radiator and possibly (e.g. with Cassegrain antennas) consist of an auxiliary reflector. To protect directional antennas against the effects of the weather, such as rain, snow, hail and ice, it is known (DE-OS 28 42 298), the reflector to cover with a foil or a shell made of low-damping material or with to completely enclose a spherical or conical cover hood. Such covers or radomes are only available for directional antennas with a reflector diameter of a few meters, e.g.

the earth station of the Deutsche Bundespost in Raisting / Upper Bavaria, but not for smaller TV and radio subscribers for individual use certain directional antennas with reflector diameters of 60 or 90 cm are provided.

Another option, directional antennas with a reflector diameter up to 1m against weather rivers of the type mentioned as well as against storms and to protect against wind, consists in placing the antenna under an eaves or to be installed behind the window of a dormer window (broadcast technical messages, Vol. 23 (1979), No. 3, page 138).

In all cases, the assembly results in one or more Directional antennas are a change in the architectural design that requires approval of a building, similar to the subsequent installation of solar panels in the roof area. It is therefore to be expected that building permits for the installation directional antennas on buildings are at least not generally issued or even the Possibility, individually, i.e. without connection to a communal antenna system, To be able to receive satellite broadcasting, by - constitutionally, however questionable - antenna bans are restricted. The same goes for others Applications of directional antennas, for example for directional routes with transmit / receive antennas.

In contrast, the object of the invention is to provide an antenna system of the type mentioned structurally in such a way that it on the one hand the directional antenna effectively protects against the effects of the weather without noticeably reducing the reception quality affect, and on the other hand, the design requirements of landscape protection satisfactorily suffices.

According to the invention, this object is achieved by the characterizing features of claim 1 solved.

Advantageous further developments and configurations of the antenna system according to claim 1 result from the subclaims.

The antenna system according to the invention is the first time for roof antennas an approximately cuboidal cover is provided, which in contrast to the known - only used with large antenna systems - spherical or conical radomes not just reliable weather protection for the directional antenna below offers, but also because of its appearance, which is similar to a heating fireplace external image after its installation on a house or garage roof is not an architectural one Represents foreign bodies. Similar to a fireplace stove can be made by appropriate Design of the outer surface of the cuboid cover hood, for example by imitating a clinker structure in color and shape or by copper-colored ones Coloring of the low-attenuation material used for the cover (e.g. acrylic glass or PVC), so that the concerns outlined above about the installation individual directional antennas for satellite broadcast reception in the invention Antenna system can be omitted.

The protection of the directional antenna against rain, Snow and ice deposits ensure that the weather is unaffected by the weather Antenna efficiency.

The storm and wind protection of the directional antenna, which was made possible at the same time, prevented not only movements of the antenna itself (which lead to sensitive reception interference can), but also allows a reduction in the mechanical requirements to the construction of the directional antenna with regard to breaking strength and rigidity and thus a significant reduction in costs. Finally, the score allowed Weather protection the problem-free installation or removal of mechanical actuators (without special encapsulation) for the directional antenna, as not only the actuators, but also the directional antenna itself against corrosion and thus against the inability to function certain adjustment parts is effectively protected.

This counts in particular such parts that the Pivoting the directional antenna to other orbital positions of satellites, for example to receive British, Scandinavian or Eastern European programs accordingly the stipulations of the WARC 1977 allow, as well as those parts that have a mechanical Switching of the receivable polarization direction of the incoming electromagnetic Enable waves. In the latter case, it is a question of pivoting, for example of the polarizer formed by a dielectric plate in the beam of the directional antenna around 900, which is achieved in a simple, inexpensive manner by means of a stepper motor can be. These motor-driven actuators can be controlled by the transmitter selection device of the television or radio receiver can be remotely controlled, with the already Mentioned weatherproof attachment of actuators and directional antenna below the cover a high reliability and a long service life of the mechanical moving parts is guaranteed.

The cover also offers a simple way to Directional antenna to shield against reflective heat radiation (geothermal energy), which able to interfere with the electromagnetic waves in the GHz range. The Bottom of the cover and / or those walls of the cover, which of the Waves incident on the directional antenna are not penetrated, from heat-absorbing Material can be produced in whole or in part. Alternatively or in addition to this a cylindrical shield ring can be made on the outer edge of the reflector of the directional antenna heat-absorbing material are attached.

The cuboid shape of the cover hood according to the invention is at first A view compared to the spherical or conical shape of the known radomes is disadvantageous in that than on the horizontal or slightly inclined cover surface of the cuboid Hood easily collect Rejen- or Schme 1 iwasser and over the vertical side surfaces can run down, resulting in a thin film of water on the from the electromagnetic Radiation penetrated side surface in front of the antenna opening and subsequently to an undesirable attenuation of the already tightly dimensioned in their performance Can carry television and radio signals. To circumvent this fundamental disadvantage the cuboid shape compared to the spherical and conical shape is in the case of the invention Cover hood ensured that at least by means of special constructive measures the side surface of the cover lying between the transmitter and the antenna to a large extent is protected against a water film misting in rain or snowfall, namely while at the same time taking into account the requirement for a landscape-bound appearance the antenna system. Furthermore, the overall height of the cover hood according to the invention is as follows dimensioned large that the incident electromagnetic waves exclusively one or cross two side surfaces, but not the top surface of the cover, to ensure that there is any snow, ice or rain on the deck the cover can not lead to any signal attenuation. This is the inventive cuboid cover with regard to its influence on the reception properties the directional antenna below it is equivalent or even better than the known ones, anyway only spherical or conical radomes used for larger directional antennas, In addition, the cuboid cover according to the invention is essential Easier to manufacture, store and assemble than spherical or conical hoods. This advantage is particularly with regard to the price-level acceptance of the new satellite broadcasting of great importance to the audience.

Of course, the advantages listed can also be used with directional antennas achieve that used for terrestrial directional links for sending and / or receiving will.

The invention is explained in more detail with reference to the drawings.

1 shows a schematic sectional view of a first embodiment an antenna system according to the invention; Fig. 2 is a section through a detail of a Cover hood of an alternative embodiment of an antenna system according to the invention; Fig. 3 shows a section similar to FIG. 2 in a further alternative to Formation of the cover of the antenna system according to the invention; Fig. 4 is a schematic View of a fourth embodiment of the antenna system according to the invention, and FIG. 5 is a schematic view of a directional antenna with a heat shield ring in front.

The antenna system, indicated schematically in FIG. 1 by 30, is on the pitched or flat roof 50 of a residential building, garage or the like. In no detail attached way shown.

The antenna system 10 includes a directional antenna 20 including Bracket 29, reflector 27 (Fig. 4), radiator 21 (Fig. 4), if necessary auxiliary reflector 22 (e.g. Cassegrain antenna), frequency converter (not shown) from approx. 12 to 1 GHz, waveguide from the frequency converter to another frequency converter Cin the VHF or UHF range) and other known accessories. Essential to the invention Is a cuboid cover 30, which the directional antenna 20 and associated Equipment of the type mentioned completely encloses, in such a way that the directional antenna effective against rain, snow, hail, ice, storm and wind as well as corrosive atmospheric Components, how exhaust gases and the like. Is protected. The cuboid cover hood consists of a Material, for example acrylic glass or polyvinyl chloride, on the one hand for the Electromagnetic waves 40 incident on directional antenna 20 have little attenuation tst and, on the other hand, sufficient mechanical strength compared to the Cover hood 30 attacking wind forces and good weather resistance must have. Most of the plastics used in building construction are suitable for this and mineral substances (ceramics), provided their water content is low, as bound Water strongly attenuates the electromagnetic waves 40 in the gigahertz range. The degree of attenuation of the material used for the cover 30 is special critical for receiving antennas for satellite programs, as those for the transmission provided by television and radio programs geostationary satellite 1 at the Lower limit of the power sufficient for reception with 60 or 90 cm antennas operate. An attenuation level of 3 dB should not be exceeded.

The cuboid cover hood 30 comprises four vertical side walls 31, 32, of which the side wall (s) 31 differ from those incident on the directional antenna 20 electromagnetic waves are penetrated, while the side walls 32 for the Reception conditions are not of interest. For this reason, the above apply Material requirements only for the side walls 31, so that the remaining side walls 32 can be made of any material, if this is necessary for the mechanical strength or the appearance of the cover 30 is necessary or favorable. Likewise will also the horizontal or desk-shaped or roof-shaped top surface 33 of the covering hood not from the electromagnetic waves 40 incident on the directional antenna 20 penetrated to a damping of the waves 40 by the on the top surface 33 itself deposition Avoid dirt, snow, ice or the like with certainty. For this purpose must the height of the side walls 31 are chosen to be sufficiently large that the Directional antenna 20 incident waves 40 completely and exclusively through the Side wall (-walls) 31 of the cover 30 pass through what happens at angles of incidence in the Federal Republic of Germany from 220-27Q does not require much space. For the top surface 33, what has been said about the side surfaces 32 applies equally Way.

Because of the mentioned, critical damping dimension of the cover hood it is also necessary that the formation of a water film on the outer or inner surface the side walls 31 is largely prevented. Such a film of water could develop form, for example, by rainwater, which is unimpeded by the top surface 33 over the side walls 31 runs down. Likewise, the formation of dew on the inner surface of the Side walls 31 can be prevented, which is achieved by suitable air circulation openings do the side surfaces 31, 32 can be achieved, if necessary. With the roof storage of the building are in continuous air connection.

To avoid a water film on the outside of the side walls 31 several options are available. For example, according to FIG. 1 the top surface 33 is pulled far enough over the side surfaces 31, 32, so that a brim-shaped edge region 33a of the top surface 33 is formed, which if necessary. can be equipped with a drip nose. Alternatively or in addition to the The possibility according to FIG. 1 can have a sunken rain gutter 34 in the top surface 33 (Fig. 2) can be provided, which drains at one point on a side surface 32 is, (if necessary via an internal vertical drainage channel or the like its lower end is led out onto the roof surface of the building). Further can they Side surface (s) of the cover 30 over the top surface 33 protrude upwards (FIG. 3), a vertical drainage also in this case can be provided. Finally, there can be a water film coating on the side walls 31 are removed with jets of compressed air, which are from compressed air sources 36 via nozzles 35 (Fig. 4) blown against the walls 31 on the lower and upper side of the walls 31 will. In addition, other window cleaning devices known from vehicle construction can also be used can be used to keep the side walls 31 free from a water film covering.

For shielding the directional antenna 20 from reflected thermal radiation (Geothermal energy), which could show up as a disturbance of the electromagnetic waves 40, is provided, the bottom and / or the side walls 32 and the top surface 33 of the To provide cover hood with a layer 37 of heat-dissipating material. Alternatively for this purpose, the bottom and / or the side walls 32 and / or the top surface 33 as a whole consist of heat-dissipating material. Furthermore, the side surface 31 with a heat reflective layer 38 be coated on its inside or outside. Alternatively, the side surface 31 can be made of a heat reflective, but for the electromagnetic waves 40 consist of continuous material. Another additional According to FIG. 5, the possibility of shielding interfering thermal radiation consists in on the edge of the reflector 27 a cylindrical screen ring 60 made of heat-dissipating To attach material, the axial length of which is such that it is up to one through the radiator 21 going, imaginary plane is enough.

The space remaining above and below the directional antenna inside the cover can be used to set up short antenna dipoles, especially active ones Antennas for receiving terrestrial television programs and / or radio programs be used. It is possible, for example, to have an FM reception in the top surface 33 or inserting the transmitting antenna without doing so those from the satellite radiated waves 40 are disturbed. Same goes for the one on the back of the reflector 27 located side wall 32, wherein in the area between this Side wall 32 and the reflector, i.e. in the one not of waves 40 (in the drawn A Yagi antenna traversed the interior of the cover hood by a wave front according to FIG. 1 possibly

in addition to a VHF antenna, in particular when the terrestrial TV station being tuned in with the Yagi antenna is from the The rear side or one of the sides 32 of the reflector 27 is incident here.

The reflector is preferably rectangular or square plan, which allows a particularly space-saving installation of the Directional antenna 20 under the cover 30 can be achieved.

The anti-corrosive effects of the cover 30 can des other alternatives or in addition to the options already indicated be used to the directional antenna 20 with rotatable or adjustable in length mechanical parts as well as actuators spatially assigned directly to these parts, in particular in the form of servomotors. The latter options are indicated in FIG. 4. The directional antenna can, for example, with regard to its azimuth position be made trackable via gear and motor means, as is the case with larger ones Directional antennas or from radar antennas is known. The control of this gearbox and Motor means 28 takes place automatically, for example, when switching channels on the television or radio to the orbit position of the selected satellite transmitter. Further the polarizer 24 downstream of the radiator 21 of the directional antenna 20 (a thin dielectric plate) together with the surrounding pipe section 23 of a Rectangular waveguide can be designed to be pivotable by 900 in both directions of rotation, what, for example, through the transmission connection of the Pipe section 23 is easily possible with a stepping motor 25. The stepper motor 25 is in turn controlled by the control unit 26, which also the transmission and Motor means 28 controls. With the help of such an optional rotation of the polarizer Satellite transmitters with both right-hand and left-hand circular polarization can be set by + 90 ° Receiving radiation using one and the same antenna. Compared to electric Polarization switches are such a mechanical polarization switch a comparatively simple, cheap solution that is always available when using a Antenna only a single satellite transmitter is to be received at a time (in single-family households or the like) is preferable. This mechanical polarization switching is a matter of course is not limited to a Cassegrain antenna shown in FIG. 4, but can for all other antenna types, for example a shell antenna Find. Furthermore, the antenna system according to the invention is not suitable for assembly limited to a house or garage roof; rather, the antenna system can also at ground level, for example in the garden on a pedestal, as it is only the direct line of sight between satellite and antenna is important. In this Case, the cover 30 can represent the replica of a garbage box or the like. which is integrated into a garden wall. In any case, the covering hood 30 a possibility of existing regulations on the landscape design admissibility to meet structural changes to buildings when setting up a directional antenna.

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Claims (10)

PATENT CLAIMS 1. Antenna system, especially for direct reception of television and / or radio programs broadcast via satellite, with a Directional antenna for very short electromagnetic waves in the gigahertz range and one the directional antenna completely enveloping cover made of at least partially one low-attenuation material with regard to electromagnetic waves, d a d u r c h it is noted that the covering hood (30) is essentially cuboid is such that the antenna system when mounted on a house or garage roof a heating chimney or the like. Or with ground-level installation of a garbage box or the like. resembles in appearance that the height of the cover (30) is dimensioned so that the on the directional antenna (20) incident electromagnetic waves (40) only through one or two vertical side surfaces made of the low-attenuation material (nD (31) of the cover (30) pass through and that a device (31a; 33a; 34; 35) to protect the vertical penetrated by the electromagnetic waves (40) Side face (s) (31) the cover (30) against rain or melt water or to remove rain or melt water. 2. Antenna system according to claim 1, characterized in that inside the cover adjusting elements (25; 28) for adjusting the polarizer (24) of the directional antenna (20) in the sense of switching the receivable polarization direction from the electromagnetic one Waves and / or for tracking the directional antenna (20) to the orbit positions desired Satellites C1) are provided. 3. Antenna system according to claim 1 or 2, characterized in that that as a rain or meltwater protection device a sufficient over the vertical / side surfaces (31, 32) of the covering hood (30) protruding edge area (33a) of the top surface (33) the cover (30) is provided. 4. Antenna system according to claim 1 or 2, characterized in that that as a rain or meltwater protection device in the top surface (33) of the Cover hood (30) recessed rain gutter (34) is provided. 5. Antenna system according to claim 1 or 2, characterized in that that as rain or meltwater protection over the top surface (33) of the Cover hood (30) upwardly protruding edge area (31a) of one or more vertical (s) (r) Side surface (s) (31, 32) of the cover (30) is provided. 6. Antenna system according to claim 1 or 2, characterized in that that as rain or melt water removal device one or more compressed air nozzles (35) are provided. 7. Antenna system according to one of claims 1 to 6, characterized in that that on the bottom surface and / or the side surfaces (32) and / or the top surface (33) a heat-dissipating layer (37) is attached to the covering hood (30) and / or the side surface (31) penetrated by the electromagnetic waves with a heat-reflecting one Layer (38) is provided. 8. Antenna system according to one of claims 1 to 6, characterized in that that as an extension of the reflector (27) - the directional antenna (20) on its outer wall a cylindrical screen ring (60) made of heat-dissipating material is attached. 9. Antenna system according to claim 8, characterized in that the axial length of the cylindrical shield ring C60) is dimensioned so that the shield ring (60) up to approximately a plane running through the focal point of the reflector (27) extends. 10. Antenna system according to one of claims 1 to 9, characterized in that that the reflector (2-7) has a rectangular or square plan.