DE1904582A1 - antenna - Google Patents

Description

Antenna The invention relates to an antenna comprising at least one radiator element, one in the direction of the beam at a distance behind the radiator element to be arranged reflector wall and a connecting arm between the radiator element and the reflector wall, which is used for holding and as a power supply for the radiator element serves.

It is known to build directional antennas from radiator elements that are arranged in front of a reflector wall.

These antennas, known as fields, exist in the meter wave range from two or more radiator elements with reflector wall. By certain mechanical Arrangement of two or more fields and supply of the radiator elements with one corresponding amplitude and phase position, larger antennas can be used in a known manner with prescribed Build radiation diagrams. The mounts for the radiator elements are normally hollow and therefore suitable for use as a coaxial line to supply the radiator elements with antenna energy. One The energy supply created in this way for the radiator elements is particularly weatherproof and operationally reliable.

Antennas of the type described above, however, are because of their large size Outer dimensions and the bulky structure difficult to pack and transport. Arrangements are known in which the radiator elements together with the holder can be removed from the reflector wall for transport; but it is there required that a separate antenna power supply and thus additional Interconnectors are provided. The savings in packaging and transport costs in these known arrangements there is again an additional technical one Effort against.

The invention is based on the object of providing an antenna of the initially mentioned described type so that this antenna is easier to pack and transport can be than the previously known types, without the radiator element and its bracket must be removed from the reflector wall for transport.

The object is achieved according to the invention in that the connecting arm is hinged to the reflector wall with the radiator element, such that the connecting arm with the radiator element between a transport position, in which the connecting arm and the radiator element bear against the reflector wall, and a working position in which the connecting arm keeps the radiator element at a distance from the reflector wall, can be folded down.

An expedient development of the invention is that means for locking the connecting arm in the working position and in the transport position are provided.

Another development of the invention can consist in that the Connecting arm - as known per se - is designed as a coaxial conductor and that an articulated piece for the articulated connection of the connecting arm to the reflector plate is provided, which is also designed as a coaxial conductor and the connecting arm electrically with an antenna power supply connection fixedly arranged on the reflector wall connects.

Is expedient. the joint piece from one on the reflector wall attached junction box with at least one substantially perpendicular to the reflector wall standing housing wall. There is a hole in the housing wall for receiving it a laterally protruding pipe socket at the articulation end of the connecting arm is provided, through which the inner conductor of the joint piece to the inner conductor of the connecting arm is led. Furthermore, it is expedient at the articulation end of the connecting arm one of the housing wall opposite flange plate attached, which is used for locking of the connecting arm can be screwed to the housing wall.

According to a particularly simple embodiment of the invention, can the antenna power supply connection sit on the connection housing.

The inner conductor of the joint piece designed as a coaxial conductor is expediently both with the inner conductor of the connecting arm and with firmly connected to the antenna power supply connection and consists of an elastic, conductive material, which causes twisting of the inner conductor of the joint piece at the Swiveling the connecting arm allows. For example, the head of the als Itoaxialleiter formed joint piece from a spring, preferably from one Be formed leaf spring.

Are lower radiator elements required for the antenna? the connecting arms of at least two radiator elements each on a common one Point be hinged to the reflector wall. That has the advantage. dsß3 on this Place a common junction box with a common antenna power supply can be provided.

Exemplary embodiments of the invention are now based on the following of the accompanying drawings.

1 shows a perspective view of an antenna with two Emitter elements, their connecting arms at a common point on the reflector wall are hinged; Fig. 2 shows another embodiment of the antenna according to the invention also with two radiator elements, but at different points on the reflector wall are hinged; 3 shows the joint piece of the antenna according to FIG. 1 in a side view wherein the one link arm is cut open; Fig. 4 is a section A-A from Fig. 3, with the right connecting arm folded into the transport position (insignificant Parts are omitted).

The antenna shown in Fig. 1 comprises a reflector wall 5. welene is known to be composed of reflector rods. in the middle of the regulator wall there is a joint piece 16, at which at the joint point 6 of the connection term 3 one Radiator element 1 and at the hinge point 7 of the connecting arm 4 of a radiator element 2 are hinged. The radiating element 2 and its connecting arm 4 are full excellent representation folded in transport position, d. that is, they are immediate on the reflector wall 5. The dashed line shows the radiator element 2 and its connecting arm 4, however, in the working position. Are in working position The radiator element 1 also sticks with its connecting arm 3.

Fig. 2 shows another embodiment of the antenna. The reflector wall is denoted here by the reference number 14.

As with the antenna according to FIG. 1, there are also two radiator elements here 8, 9 with their respective connecting arms 10. 11 are provided, however, on various points of the reflector wall 14 are articulated. So it is for everyone Srtahlerelement 8, 9 with its corresponding connecting arm 10, 11 a separate one Articulation piece 12, 13 is provided.

In Fig. 3 and 1, the joint piece 16 of the office of Fig. 1 is in its essential details are shown.

The joint piece 16 is formed by a connector housing with two housing walls standing perpendicularly on the reflector wall 5 is provided by which in Fig. 3 only the housing wall 40 is visible. This is with two holes 36 and 38 provided. in the bore 36 sits a tubular socket 37 so that it can rotate axially, which is located on the side of the articulation end of the connecting arm 3. in the hole 38 sits 3xially rotatable a pipe socket 39, which is laterally on the Link arm 4 is located. The connecting arms 3 and 4 are hollow on the inside and with coaxial conductors Inner conductors 17, 18 are provided. On the connection housing 16 is also an antenna power supply 15 is provided, which is designed as a coaxial connector. The inner conductor leads to a coupling piece 19 which is secured in the connection housing 16 in an isolated manner. One end of each leaf spring 20, 21 is attached to the coupling piece 19, the other end of which passed through the corresponding pipe socket 37, 39 and connected to the Inner conductor 17, 18 of the corresponding connecting arm 3, 4 is screwed. the Leaf springs 20, 21 can be twisted without difficulty and pivot the connecting arms 3, 4 do not encounter any resistance. For locking the connecting arms 3, 4 these are provided with a flange plate 28 or 30 at their articulation end, which faces the housing wall 40. In the housing wall 40 are radial to the Pivot centers of the connecting arms 3, 4 arranged elongated holes 32, 33, 34, 35, and Bores 29, 29 'and 31, 31' provided: By screws 23, 24, 26, 27, which cannot be lost seated in the flange plates 28, 30 and guided through the elongated holes 32, 33, 341 35 are, the flange plates 28, 30 with their connecting arms 3, 4 on the housing wall 10 held and limited in their pivoting range. The lock deL Vel'0itldULltSarEe 3, 4 is done by screws 22, 25, which on the one hand by the corresponding flange plate 28, 30 and on the other hand through one of the holes 29, 291 or 31, 31t.

Claims (9)

EXPECTATIONS 1, antenna comprising at least one radiator element, one in the beam direction at a distance behind the radiator element to be arranged reflector wall and a 7erbindungsarm between the radiator element and the reflector wall, which is used as a holder and as an energy supply line serves for the radiator element, thereby g e k e n n n -z e i c h n e t that the connecting arm (3) is hinged to the reflector wall (5) with the steel element (1), such that the connecting arm (3) with the radiator element (1) between a transport position, in which the connecting arm (3) and the radiator element (1) on the reflector wall (5) rest and a working position in which the connecting arm (3) the radiator element (1) at a distance on the reflector wall (5), can be folded down. 2. Antenna according to claim 1. characterized g e k e n n z e i c hn e t that Means for locking the connecting arm (3) in the working position and in the Transport position are provided. 3. Antenna according to one of the preceding claims, characterized g e k e It is not noted that the connecting arm (3) - as is known per se - as a coaxial conductor is designed and that for the articulated connection of the connecting arm (3) with the Reflector plate (5) a joint piece is provided, that too is designed as a coaxial conductor and the connecting arm (3) electrically with a Antenna power supply connection (15) fixed to the reflector wall (5) connects. 4. Antenna according to claim 3, characterized in that g e k e n n z e i c hn e t the joint piece from a connector housing attached to the reflector wall (5) with at least one housing wall which is essentially perpendicular to the reflector wall (5) (40) formed. is that in the housing wall (40) a bore (36) - for receiving a laterally at the articulation end of the connecting arm (3) protruding pipe socket (37) is provided through which the inner conductor (20) of the joint piece to the inner conductor (17) of the connecting arm (3) is guided, and that at the articulation end of the connecting arm (3) a flange plate (25) opposite the housing wall (40) is attached, which can be screwed to the housing wall (40) to lock the connecting arm (3) is. 5. Antenna according to claim 3 and 4, characterized in that g e k e n -nz e i c h n e t that the antenna power supply connection (15) on the connection housing (16) sits. 6. Antenna according to claim 4 or 5, characterized in that g e k e n nz e i c h n e t that the inner conductor (20) of the joint piece designed as a coaxial conductor both with the inner conductor (17) of the connecting arm (5) and with the antenna power supply connection (15) is firmly connected and consists of an elastic, conductive material, which a twisting of the inner conductor of the joint piece (20) when the connecting arm is pivoted (3) allows. 7. Antenna according to claim 6, characterized in that g e k e n n z e i c hn e t the inner conductor (203 of the joint piece designed as a coaxial conductor from a Spring, preferably formed by a leaf spring. 8. Antenna according to one of the preceding claims, characterized g e k e n n z e i c h n e t that when using several radiator elements (1, 2) the connecting arms (3, 4) of at least two radiator elements (1, 2) each on a common Place on the reflector wall (5) are hinged. 9. Antenna according to claim 8, characterized in that g e k e n n z e i c hn e t for emitter element connecting arms articulated at a common point on the reflector wall (5) (3, 4) each have a common connection housing (16) with a common antenna power supply (15) is provided.