ES2279397T3 - ANTENNA PROVISION WITH RADOMO, AMORTIGUATION PROVISION AND SERVICE AREA. - Google Patents

Abstract

The invention relates to an improved design antenna system (1) characterised in that it is subdivided at least into one top antenna segment (3) provided with bearing core, active antennas and a radome, and at least one lower antenna segment (5) which is axially downwards extended, designed in the form of a service area (5.1) and provided with at least one opening for access into the internal space thereof. Said radome is supported and elastically fixed above at least two damping systems and /or devices which are axially remote with respect to each other.

Description

Antenna layout with radome, layout of cushioning and service area.

The invention relates to an arrangement of antenna according to the preamble of claim 1.

This was published for example in the publication specialized company Kathrein-Werke KG (December 1997 edition) an article entitled "New antenna station in Säntis, Switzerland. "From that document it follows that the broadcasting facilities include radio broadcasting antennas, Television and mobile radiotelephony. The great height and, therefore, the extremely low temperatures in winter have made it necessary use a double-walled and heated radome there, inside the which the transmitters are housed.

In addition, antenna devices are known fundamentally comparable that, however, are only intended for base stations for the mobile radiotelephony field, hence the radome also comprises a diameter considerably smaller than in the prior art mentioned at the beginning.

These types of publications are known by example by document DE 202 05 550 U1 or document DE 202 18 101 U1. Both previous publications show an antenna support central which, according to document DE 202 18 101 U1, can be equipped additionally with support walls that project radially, with which forms three arranged sectors displaced from each other in the circumferential direction or angular zones of 120 degrees. In these zones are mounted conventional antenna devices fixed to the antenna mast, which are already originally equipped with a own radome, that is, with its own antenna cover.

The total layout is surrounded by a outer covering in the form of a cylinder in cross section which can be configured, according to DE 202 18 101 U1, by a wall or, according to DE 202 05 550 U1, like in the prior art mentioned at the beginning, with double wall.

The total construction effort, including on- site assembly, but also the inconvenience of repair, has been shown to be very disadvantageous in the last mentioned antenna systems. Especially when, for example, the components not only have to be replaced but also retrofitted, an important assembly effort is necessary to first remove the entire coating, to retrofit the corresponding components at a great height, and then, once the work has been done, replace the coating.

An antenna according to the generic concept is known from WO 97/06576 A. It comprises a support core, which is surrounded by a radome. Emitters for reception and / or broadcast are arranged between the support core and the radome. The antenna arrangement is arranged and held between a top closure plate and a base plate or base plate.
ferior.

A similarly large antenna layout for the admission of antennas sector is known, for example, by the document DE 101 19 612 A1. The antenna layout for the admission of sector antennas, which preferably consist of mobile radiotelephony antennas, features a ready mast vertically, whose upper section has a support piece formed by a tube. It is an inner support tube in  mast shape On the outer perimeter of this support tube sector antennas are mounted. For the entire provision, which consists of the inner support tube and the fixed sector antennas at the same time, a jacketed tube fixed to the mast is provided which lets electromagnetic radiation pass. Its about called radome. The jacketed tube is directly adjacent to a base tube, which forms the lower section of the mast. By therefore, the mast itself forms a stepped transition from the lower base tube of larger diameter up to the piece of wire of tubular upper shape of smaller diameter, being provided in the staggered transitions thus formed openings through the They extend cables that lead to sector antennas.

Since, therefore, the bottom base tube larger diameter connects to the upper jacket tube, the set of antenna layout appears almost hidden and hidden.

However, it has come off as essentially disadvantageous in the state of the art that constitutes the generic type that, with certain wind speeds raised, the entire antenna mast can swing in such a way so that the radome breaks.

Document GB 2 263 581 A also derives a microwave antenna with a dielectric core that is inside the radome in the form of an assembly similar to a circuit board, on which antenna elements are arranged. He dielectric support device is held and supported by damping devices arranged displaced in the direction axial with respect to the inner side of the radome.

Finally, a provision of antenna by US 2002/0184833 A1 describing components of the grid-shaped radome that can be decorated in a way corresponding, whereby the antenna layout is practically hidden.

The objective of the present invention is to both overcome the disadvantages according to the state of the art and create an improved antenna layout.

The objective is solved according to the invention of corresponding to the characteristics indicated in the claim 1. The dependent claims are set forth advantageous embodiments.

Indeed, it should be noted as surprising that with the present invention an antenna arrangement is created highly stable, which is configured in the form of a mast, being cover the entire antenna installation in a radome shaped tube that can be designed extremely narrow. This radome can preferably set up, as in other arrangements known, in the form of a cylinder in cross section, although you can also present any other cross section horizontal, for example polygonal, oval, etc.

In addition, the antenna arrangement according to the The invention features a damping device that guarantees that, in case of corresponding wind speed, balancing is avoided of the antenna component and, above all, of the radome and, therefore, the destruction of the installation or parts thereof.

A corresponding solution had not been profiled to date.

The antenna installation according to the invention is builds in such a way that it includes, within the radome, emitters antenna emitting oriented for example in at least two sectors, preferably in three or more sectors. In this sense any emitting device that can emit in the more different horizontal bands, for example with a medium width from 90º, an average width of 60 to 65º, etc.

Antenna elements of a polarization, double polarization or polarization circular. The so-called emitters and groups can also be used of polarization emitters x, whose polarization direction is orientates at an angle of + 45º or -45º with respect to the horizontal plane or to a vertical plane.

The antenna arrangement according to the invention it can also comprise broadband antennas and transmitters or Narrow band. This construction can be such that all the antenna layout emits and receives only in a band or in several bands, for example in two bands. Band structure it can also be so wide band that it covers for example the band 1800 MHz, but also for example the 1900 MHz band (which is usual in the US) and / or the UMTS band of approximately 2000 MHz

Through the antenna arrangement and the mode of compact construction according to the invention is also possible by first time build an antenna device of this type almost as a 360º emitter through a corresponding interconnection in the service area In this sense, the emitting elements can fit preferably through a descent device remotely adjustable with different emission angles with respect  to the horizontal plane.

In a preferred embodiment of the invention is provided a so-called service area that is below all emitting elements. In this service area all adjustment and connection measures can be performed relevant, and specifically without having to completely disassemble the antenna mast or radome completely removed previously, to access the components found below. The service area is preferably constructed in addition in such a way that it is represented in a closed state almost as prolongation of the radome surrounding the emitting elements. For the service area may comprise a rack of housing corresponding to adequate axial height and diameter suitable, which has sufficiently sized openings great to create in them an access to the interior space. The opening areas can be closed and covered by covers individual coverage or by surrounding housing covers together the antenna mast, which are preferably found at least approximately in the perimeter plane of the radome that surrounds the emitting elements, so that a mast-shaped construction preferably from the outside as flat and continuous as possible, without being guessed if in this construction components are housed inside or which.

The service area is built in such a way which is mounted on a truncated mast head in which the necessary antenna cables, which lead to the device antenna, they end up in an interface formed through it. This truncated mast is designated below in this regard also as mast foot, mast base or also as antenna foot or antenna base. With the service area open, the cables corresponding intermediates can be mounted, creating a connection electrical from the cables that end in the antenna foot to the connection points provided in the upper zone of the zone service of the cables that lead to the emitters. Likewise in this service area can accommodate any necessary component as amplifiers, etc. The amplifiers can be, by example, the so-called TMA, TMB etc. A part of the amplifiers or other circuits, which for example also generate heat, which must be diverted outwards, can be configured and arranged in such a way that a part of the housing of the amplifier serve at the same time as a closing arrangement - cover cover for opening in the service area, so that these devices can optimally dissipate the heat produced by them out (a part of the devices that generate heat therefore also represent a part of the outer covering of the antenna layout). Since these amplifiers are they now place closer to the issuers themselves (and no longer in a separate base station), not only the number of wires that they must extend from the base station to the emitters, but which can also reduce the power consumption of the amplifier necessary for the antenna arrangement for example in a factor of 2. Finally, not only can the cables of the number be reduced food and fiberglass used, but, where appropriate, also its cross section of necessary diameter. Too they can stay in the service area, for example, remote controllable descent devices, for example the correspondingly controllable motor units, which they can be controlled, for example, by a transmission linkage and then the phase shifter inside the radome for the adjustment of the different angles of descent.

If necessary, not only one can be provided, but also a second or more service areas arranged axially one over another, which can be retrofitted as appropriate autonomous modules. Similarly, a single area of service originally performed, which presents for example a larger height and therefore always enough space to accommodate subsequently more additional components.

Preferably, the service area may disassembled or fixed using threaded joints, so that it is possible even in a state secured by the threaded joint a axial rotary movement of the service area and therefore of the Mast construction that is on it. In this way antenna transmitters can be oriented so correspondent.

Other advantages, particularities and characteristics of the invention are deduced following the exemplary embodiment represented by the drawings. Show in detail:

Figure 1, a complete view according to the invention of a mast-shaped antenna;

Figure 1a, a mast-shaped antenna according to the invention without service area with the radome partially not shown to illustrate the emitting elements found below;

Figure 2, a prepared antenna stand, on which is built an antenna installation in the form of mast;

Figure 3, a corresponding representation to figure 1, but with open service area and before mounting on the antenna socket or the antenna base;

Figure 4, an exploded representation ordered antenna layout and its essential components in a perspective representation oriented rather from above down;

Figure 5, an exploded representation ordered corresponding to figure 4, but at an angle of visibility oriented rather from the bottom up;

Figure 6, a detailed representation in expanded perspective for the explanation of the zone fixation of service on the antenna foot;

Figure 7, a corresponding representation to figure 6, after the service area has turned with the mast construction that rests on it in a value angular;

Figure 8, a sectional representation transverse through the mast construction with the elements antenna placed inside;

Figure 9, a perspective representation of a damping device at the end of the front side located at the top of the mast construction including the cylinder-shaped radome;

Figure 10, a sectional representation vertical through the front side cover located on the upper part with the damping device according to the invention for radome in an exemplary embodiment modified;

Figure 11, a sectional representation vertical in the area of the lower end of the radome in the transition  towards the adjacent service area;

Figure 12, a modified construction with respect to the representation according to figure 9, shown in a vertical section;

Figure 13, an exemplary embodiment comparable to that of figure 1 of an antenna arrangement already mounted  and ready, with open cover caps to illustrate modules integrated,

Figure 14, an exemplary embodiment additional to clarify the additional construction of an area of additional service; Y

Figure 15, an exemplary embodiment again modified with a mast-shaped antenna base, which features a lower outer diameter with respect to the arrangement of antenna left.

In figure 1 it is shown in a representation in schematic perspective an antenna arrangement 1 according to the invention, such as those considered especially as antennas mobiles for a base station.

The antenna arrangement 1 comprises a section 3 antenna located at the top and adjacent to it in the bottom at least one additional antenna section 5, which It comprises at least one 5.1 service zone.

The full provision of sections 3, 5 of upper and lower antenna, which is axially adjacent to each other, it is constructed and fixed on an antenna support device 7, It serves as a base 7 antenna. This antenna base 7 does not have to necessarily present the mast-shaped configuration that it can be seen in figure 1 and following, but it can also have a larger or smaller diameter or other form of section transverse or can also be configured, for example, as a point of connection located at ground level, on which then the antenna arrangement 1 is constructively mounted with at least section 3 of upper antenna and at least section 5 of lower antenna.

Figure 3a shows section 3 of antenna with radome 41 partially removed, to show the emitters 6 that are below, which are arranged in the example of embodiment shown, in each case, in several slots arranged displaced in the perimeter direction, displaced one over another in the vertical direction

In Figure 2, the cylinder-shaped antenna base 7 can be seen in the present case, which generally rises in situ . This antenna base is fixedly anchored to or on the ground. Through this own antenna base, the connection cables 11 necessary for the operation of the antenna are laid, which preferably end in the area of the upper end of the antenna base 7 and are preferably provided there with a connection unit, in each case, especially a connection plug unit 13.

These connection plugs 13 are maintained by means of a device 15 for holding and unloading traction in the area of the upper end of the antenna base 7 provided with a opening 17 of exit, passage and access.

The upper end of the antenna base 7 explained can also be understood in this sense as an interface 19, on which it is mechanically placed then so constructive antenna arrangement 1, which is usually facilitated by the manufacturer, and fixedly joins the base 7 of antenna (figure 3).

In the exemplary embodiment, the form of cross section and cross section size in the area from the antenna base 7, from the lower antenna section 5 explained with the at least one 5.1 service area provided there, as well as the upper antenna section 3, are the same or essentially same. That is, in the present case, the diameter is in each case circular and outer dimensions are in a range of at least equal size, therefore in the present example of realization should deviate from each other in less than 20%, especially in less than 10% and especially in less than 5%. From this way, the impression of a mast construction is given continues, without recognizing what function this mast has and if certain components are housed inside.

The components are represented in Figure 4 essential antenna layout between antenna base 7 and the lower part of the upper antenna section 3 in a Exploded view representation (with view angle oriented rather from top to bottom) and in figure 5 at an angle of view corresponding, oriented rather from the bottom up. Be note that the service zone 5.1 explained in the example of embodiment shown is cylindrically configured basically, and specifically with a 5.1 a and 5.1 b connection side or upper front and lower one.

With the 5.1 b connection point located on the bottom, service zone 5.1 can be fixedly linked by means of screws 25 to the 7.1 side of connection pointing towards above, from the antenna base 7.

Likewise, on the lower side of section 3 of upper antenna, a connection side 3.1 is provided, through the which can also preferably be obtained again by threaded joints a fixed mounting of upper antenna section 3 to the lower antenna section 5 below. The Threaded joints mentioned for the fixed joint on side 3.1 lower section 3 of upper antenna with zone 5 of Service is produced by screws.

As can be seen in the representation Detailed enlarged according to figures 4 and 5, connection side 7.1 located at the top has a 7.1 'ring of material that it is placed on the tubular exterior construction of the antenna base 7 or it can be part of this tubular antenna base 7. The tubular construction of the antenna base 7 ultimately supports instance the total weight of the antenna arrangement 1. For the fixing are incorporated in connection point 7.1, arranged displaced in the perimeter direction, a plurality of 29 threaded holes. The 5.1 service area to be placed on top presents, to absorb the loading forces of the upper antenna section 3, a construction with a 5.1 ring a ', 5.1 b' of connection located above and below, than in the example of shown embodiment are fixedly joined by three souls 31 of material located displaced outwards with respect to the axis central.

As can be seen in the representation in enlarged section according to figure 6, in the exemplary embodiment shown, in the 5.1 b 'connection ring located below are made 33 oblong holes that run circularly in each case, which are sized at least as long as in the oblong hole 33 can be screwed, corresponding to the distance angle of the threaded hole 29 (figure 4), two screws 25 a through the perforations 29 threaded in the ring 7.1a 'of Connection. The screw heads are supported in this case directly or through underlying disks, for example a disk 36 underlying common, in the 5.1b 'connection ring, because they have a larger diameter and cannot pass through hole 33 oblong. In other words, the oblong hole 33 is configured in width such that only the screw pin 25 it can go through this hole 33 oblong. Since in the present case the service zone 5.1 presents three souls 31 of material arranged displaced with the same angular distance in the perimeter direction, three openings 35 of radio access whose function will be entered below more in detail. Corresponding to this configuration, they also build three oblong holes 33 in the 5.1 b 'ring connection arranged below, which sit in the direction perimeter in the area of the respective access openings 35. These oblong holes serve to ultimately fix  the antenna in different angular orientations. Since, by For example, in each oblong hole, the screw 25 'located at the left in the oblong hole can be released and removed, being able to only slightly open the 25 '' screw located on the right in each oblong hole. In this position, service zone 5.1, for example, it can then rotate around its central axis 26 vertical along arrow 28 represented in the direction counter clockwise, until the screw 25 '' mentioned that crosses the oblong hole at the right end it then rests on the respective end on the left of hole 33 oblong (figure 7). Thus, it can be entered into the free thread located to the right in hole 33 oblong, in each case, a new screw and remove the screw located at the left. So the entire mast can be fully rotated in a secure position on its central vertical axis 26.

Then you will enter the construction of upper antenna section 3 support.

As can be seen especially in the cross-sectional representation according to figure 8, the section The upper antenna has a central support core 39 which, in The exemplary embodiment shown is configured in section preferably triangular transverse, connecting in the areas of vertex of this construction in the form of a cross section radially triangulate out souls or nerves 40 that They run. However, these nerves or souls are not necessary obligatorily They can also be omitted or replaced by others. constructive measures This support core 39 can be made of any material, for example, metal (in certain circumstances also as a continuous casting part), of plastic or for example fiberglass, etc. In principle you can Consider basically the most diverse materials. Between the nerves 40 the emitters 6 are arranged distributed over each other in the vertical direction

In the souls that stand out radially follows contiguously then radome 41, which presented in the exemplary embodiment shown in one form cylindrical Radome consists of a material that lets the electromagnetic waves, preferably without any attenuation or only with a slight or minimal attenuation. Fiberglass is a suitable material for it. The support core 39 and the radome 41 they can also be built in one piece, and therefore can be constituted together by the material that lets the electromagnetic waves, preferably fiberglass. Without However, radome 41 may also be separated from core 39 of support arranged inside, then disposing preferably on the inner perimeter surface of radome 41, in the area of the radial ends located outside the mentioned nerves or souls 40, projections or grooves, by means of the radome 40 is clamped in a twist-resistant manner. avoid now in case of certain wind speeds a inadmissible wobble and that possibly shatter all the installation, the upper antenna section 3 is configured in such a way  so that radome 41 is held tightly by a damping arrangement 43 located above and one located below with force that can be adjusted previously or that can be defined previously, and specifically interposing a device 45 damping.

Figure 9 illustrates for example the end superior of this construction in exploded representation organized. It can be seen in it that in the triangular construction of the support core 39 there are three perforations 39 ' vertical, through which they are introduced, using retainers of separation, rods 39 '' of traction, seals of separation that they serve so that the 39 '' pull rods cannot interact with the inner wall of the hole 39 'or hit the same. In figure 9, two of the oblong holes 39 still without the 39 '' pull rods inserted. Only in perforation 39 'further ahead in Figure 9 is already a rod 39 '' of traction inserted that it still protrudes axially upward, that is, it is not has fully inserted into the perforation 39 '. To the extreme upper on the front side of this construction is then placed the damping device 45 shown in Figure 9, which preferably consists of elastomeric material, which is part of buffer arrangement 43. The device 45 of damping surrounds, corresponding to the representation in section according to figure 10, at least to the upper edge 41a of the radome 41. When placing pressure absorbing device 46 upper in the form of a cover interposing the device 45 of mentioned damping radome 41 is requested both in direction radial as in axial direction by the element 45 of damping, screwing through perforations 47 corresponding in the pressure housing 43 in the form of top cover screws 48 that are screwed into holes in the front side of the mentioned 39 '' pull rods that they cross the perforations 39 'in the support core 39.

In construction according to figures 9 and 10, the entire cover-shaped pressure absorbing device 46,  and then partially, also designated as a pressure element, by means of a damping device 45 formed in a manner corresponding, not only requested with radome 41 in the form of cylinder located outside but also with the core 39 of support located inside including the 40 running souls  front out through the damping device 45, so that the damping device 45, that is, the corresponding damping element, comprises a section 45a ring that can be placed on the upper edge of the radome, three sections 45b radially inwardly located displaced in the perimeter direction (below which they place the souls 40 of the support core) and in the middle a section 45c damping divided once or several times, in which likewise, holes or holes 45d are re-practiced in the points under which the perforations 39 'are in the support core 39. Hence the perforations 39 'in the core of support align with the openings 45d of the device 45 of damping and perforations 47 in device 46 of pressure absorption in the form of a cover, that is, in the element 46, so that the bolts can be screwed through  screws 48 mentioned (figure 9) through those mentioned passage openings and perforations, and specifically in threads internal on the front side on the 39 '' pull rods that they cross the perforations 39 '. In this regard, the device 45 damping can be configured on each front side for clamping the radome 41 of a piece or in One part or several parts.

The construction on the bottom side is corresponding (figure 11). Together the construction is chosen such that, in certain areas, when tightening the screws 48 mentioned a previous tension is achieved located in an area predefined damping material, which even with correspondingly high wind speeds causes the desired damping of the entire construction and thus it safely prevents a sway that can destroy all the installation.

In a different way to figure 9, by Figure 12 shows only that device 45 of Damping mainly should only be provided in the part of upper and lower edge of radome 41, and that device 46 of pressure absorption in the form of a cover in the example of shown embodiment can be fixedly placed on the core 39 of support.

Fixing the pressure element or cover-shaped pressure housing 46 located below is in principle comparable to the pressure element or device 46 of pressure absorption in the form of cover mentioned located above, the essential difference being that, in the case of cover absorption device located below, it presents additional passage openings 50 through which they can be guided the corresponding connection cables and the devices of drive from service zone 5.1 to space inside inside radome 41 in upper antenna section 3. In in other words, they are screwed with a plurality of screws through corresponding holes in the ring 5.1a 'of upper connection of the support 5' of the service area from below in the vertical direction, and specifically in 49 threaded holes that are made from below running in the vertical direction on the 3.1 connection side that points down. This ensures a fixed connection between the section 3, 5 of upper and lower antenna.

In service zone 5.1, they can be installed now without problems through the access openings 25 the necessary components if necessary, exchanged in case of repair work or also retrofit other components. Thus, in the example shown according to Figure 13, three are shown units 51, which can represent for example an amplifier (TMA or TMB) or for example the so-called RET units, which can serve for remote control adjustment and modification of the angle of descent This type of unit can be activated, for example, a regulation mechanism, which adjusts phase shifters placed under the radome to generate phase shifts desired, such that in this way the angle of decline. Regarding this mode of operation, it is sent basically to the solution published previously according to the WO 02/061877 A2 as well as WO 01/13459 A1.

In Figure 14 you can also see that the antenna arrangement can basically be complemented by 5.2 additional service zones, etc. Preferably, in this meaning all service areas, even if they differ in their axial length, they are set equal at least with respect to their connecting sides located up and down, so that, by example, according to figure 14, another one can be axially interposed 5.2 service zone more.

Since when removing cover 53 (figure 1), by means of which the access opening 35 is basically closed, provides free access to the interior space 36 (figure 5) in the zone of the one or several service zones, can occur from there any connection coupling of the connection ends, located below, of the wires that end there, in this way, of the additional connection points found on the side lower section 3 upper antenna towards the elements individual emitters or phase shifters, etc. If necessary, you can interconnect, repair, replace or retrofit any electrical / electronic unit.

In figure 1, in service zone 5.1, indicates a cover 53. In this case it may be a cover separable and / or for example one that can rotate preferably around an axis of vertical rotation outward, to create a Free access to the service area. The cover can also be built however by a module housing wall 51 integrated. This way you can deviate outwards from especially suitable heat generated by the module.

This cover 543 may be smaller than the total opening to the interior space 36 of the service area. From there that the cover can also be configured in two pieces, specifically to understand a cover frame in which one returns to practice an opening in which the wall of module housing as cover connection side.

Figure 15 shows only basically that the antenna base 7 can also be configured in its  conformation or sizing differently, being equipped in this exemplary embodiment therefore with a smaller diameter. This eventually offers the possibility of driving up cables on the outer side of an antenna base 7 in the form of mast of this type and then, on the underside of the first 5.1 service area adjacent to it, lead them to the interior from below to space 36 interior in zone 5 of service.

Claims (26)

1. Antenna installation with the following features:

-

       the antenna arrangement comprises a core (39) of support,

-

       the support core (39) is surrounded by an antenna housing (41) in form of a radome (41),

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       between the support core (39) and the radome (41) are arranged issuers to issue and / or receive,

characterized by the following additional features:

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       the radome (41) is held elastically and anchored through the minus two damping arrangements (43) located displaced one relative to the other in the axial direction at the upper end and lower radome (41), and

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       the radome (41) is held in tension through the arrangement (43) of damping located above and that located below with a force or pre-tension that can be pre-set or defined previously.

2. An antenna installation according to claim 1, characterized in that the two damping arrangements (43) arranged displaced relative to each other axially each comprise a damping device (45) that is supported at least partially on the upper edge and / or at the lower edge of the radome (41) at its outer perimeter. 3. An antenna installation according to claim 2, characterized in that the damping device (45) is supported at least partially on the upper edge and / or on the lower edge of the radome (41) at its inner perimeter. 4. An antenna installation according to claim 2 or 3, characterized in that the damping device (45) on the upper end of the radome (41) is supported on the upward facing front side of the radome (41) and / or on the end bottom of the radome (41) on the front side facing down the radome (41). 5. Antenna installation according to one of claims 2 to 4, characterized in that the upper damping device (45) and / or the lower damping device (45) completely surrounds or surrounds the upper or lower edge of the radome (41) by the front side 6. An antenna installation according to claim 5, characterized in that the damping device (45) comprises a damping material, which is supported under previous pressure or prior tension in the radome (41). 7. Antenna installation according to claim 6, characterized in that the damping device (45) is held pressed against the radome (41) under pre-tension that can be previously selected. 8. An antenna installation according to one of claims 2 to 7, characterized in that a pressure element (46) is provided on the upper and / or lower edge of the radome (41), which is preferably requested under a pre-tension that can be previously set, interposing the damping device (45), the upper or lower end of the radome (41). 9. An antenna installation according to claim 8, characterized in that the pressure element (46) provided at the upper end of the radome (41) rests on the support core (39) and can be adjusted in the axial direction of the core (39) of support, because the pressure element (46) generating corresponding pre-tension forces requests the damping device (45), which in turn is supported on the adjacent outer perimeter, on the inner perimeter and / or in the axial direction on the corresponding front side of the radome (41). 10. An antenna installation according to one of claims 8 or 9, characterized in that the pressure element (46) provided at the lower end of the radome (41) rests on the support core (39) and can be adjusted in the axial direction of the support core (39), because the pressure element (46) generating corresponding pre-tension forces requests the damping device (45), which in turn is supported requested in the adjacent outer perimeter, in the inner perimeter and / or in the axial direction on the corresponding front side of the radome (41). Antenna installation according to one of claims 6 to 10, characterized in that the damping device (45) is also provided between the pressure element (46) and the support core (39) inside the radome (41) . 12. Antenna installation according to one of claims 6 to 11, characterized in that the damping device (45) is further provided between the pressure element (46) and the souls (40) running between the support core (39) and the inner side of the radome (41). 13. An antenna installation according to one of claims 1 to 12, characterized in that the radome (41) is held elastically prestressed with its opposite front sides between an upper and lower pressure element (46) interposing in each case a device (45 ) of damping, these upper and lower pressure elements (46) being able to be held in tension towards each other, preferably through one or more tension rods (39 '') running between the two pressure elements (46). 14. An antenna installation according to one of claims 1 to 13, characterized in that the radome (41) forms with the support core (39) and the transmitters for receiving and / or sending an upper antenna section (3), below of which a service area (5.1) is provided as a lower antenna section (5), the service area (5.1) being provided with at least one access opening (35), provided in the antenna housing, to a interior space (36) in the service area (5.1). 15. Antenna installation according to claim 14, characterized in that the service area (5.1) is configured as a support (5 ') that is attached or can be fixedly attached to its upper front side (5.1 a) at least indirectly with the lower side of the upper antenna installation (3), and because the support (5 ') can be mounted on an antenna base (7). 16. Antenna installation according to claim 14 or 15, characterized in that, preferably running in the perimeter direction, at least two, preferably at least three, openings (35), which can be closed, are configured in the support (5 ') that It serves as a service area (5.1). 17. Antenna installation according to claim 16, characterized in that the openings (35) can be closed by covers (53). 18. Antenna installation according to claim 16, characterized in that the opening (35) can be closed by modules (51) provided in the interior space (36) of the service area (5.1) or that can be mounted there, so that the less a part of the housing wall of a module serves as a closing cover (53) for the opening (35) in the service area (5.1). 19. Antenna installation according to one of claims 8 to 18, characterized in that the front and lower mounting side in the antenna installation is formed by the pressure element (46) arranged below. 20. Antenna installation according to one of claims 14 to 19, characterized in that, in the region of the service area (5; 5.1; 5.2), in the interior space (36) provided therein, the connection ends and / or the connection points or plugs of the cables that are introduced on the one hand through the antenna base (7), and also because in the region of the service area (5; 5.1; 5.2), in the space ( 36) inside provided there, the connection ends and / or the connection points or plugs of the cables leading to the transmitters housed in the upper antenna section (3) end, and because these connection ends and / or points or Connecting plugs of the cables and lines in question can be connected in the region of the service area (5.1), if necessary, through modules and electrical units housed there or directly through connecting cables. 21. An antenna installation according to claim 20, characterized in that the cables or cable ends laid through the antenna base (7) are held and anchored through voltage discharge devices. 22. Antenna installation according to one of claims 14 to 21, characterized in that the service area (5.1) consists of a support with an upper and a lower support plate, the upper front side having an intermediate section serving as a section of core support (39) support. 23. Antenna installation according to one of claims 14 to 22, characterized in that the support (5) of the service area (5.1) has a central passage opening on its lower front side. 24. Antenna installation according to one of claims 14 to 23, characterized in that the service area (5.1) consists of one or more supports (5.1, 5.2) arranged axially one on top of the other, which can be axially fixed to each other. 25. Antenna installation according to one of claims 14 to 24, characterized in that the support of the service area (5.1) is preferably provided on its lower support front side with oblong holes (33) located displaced in the perimeter direction, preferably semicircular oblong holes (33), which are sized in length so long that at least two screws (25) located displaced in the perimeter direction cross the oblong hole (33), which can be screwed into the base support plate ( 7) antenna located below or on a support plate on the front side of an additional service area (5.1, 5.2) below. 26. Antenna installation according to one of claims 14 to 25, characterized in that the most diverse antenna modules, especially amplifiers (TMA, TMB), controllable units are housed in the interior space (36) of the service area (5.1). remote to adjust different angles of descent of the emitting device.