EP1203420B1 - Method for adjusting parabolic antennae - Google Patents

Description

The invention relates to a method for adjusting a holding arm arranged parabolic antennas and one Holding device for parabolic antennas according to the generic terms of claims 1 and 3.

Parabolic antennas are aimed at a satellite, whose signal is to be received on buildings, Masts and the like attached. The alignment the signal from the satellite usually occurs in an exposed location, for example on a Roof, on a house wall and the like. That the parabolic antenna is rotated and inclined until in a receiving device in the focus of the parabolic antenna is arranged to receive a maximum signal becomes. This is especially the case with larger dish antennas Fixing method cumbersome, complex and not uncommon associated with dangers.

The object of the invention is therefore to provide a method for Adjustment of parabolic antennas arranged on a holding arm and a holding device for parabolic antennas to further develop in such a way that it is as simple as possible Assembly and alignment of the dish antenna the satellite even in exposed and difficult to access areas Making possible.

This task is carried out with a holding device for parabolic antennas of the generic type by the features of claims 1 and 4 solved.

The integration of a measuring device for the detection of Satellite signals in the holding arm has the great advantage that the holding device without fastening the reflection device aligned with the satellite signal can be. In connection with the fasteners, which is a tool-free detachable attachment allow the reflection device, so the entire satellite reception facility in the simplest Aligned to a maximum satellite signal and be attached. In particular, it is not cumbersome Handling of the parabolic antenna required.

In principle, it is possible in the mounting arm to provide another small receiving device, which an alignment of the mounting arm on the Allows satellite signal. Beyond that, however also the later essentially in the focus of the reflection device receiving device to be positioned initially integrated into the mounting arm so that it is aligned with the satellite signal can be removed after alignment and then attached in the focus of the reflection device become.

A part of the holding arm can also be provided to be provided with a paraboloid surface in order to in the later focus of the reflection device arranged receiving device as a measuring means for Use adjustment.

In an advantageous embodiment, that the measuring device is integrated on a chip and therefore only requires a small installation space. A advantageous embodiment also provides that solar cells are provided on the holding arm, which the Supply the measuring device with energy. In this way can have additional power supplies which are the feeder of cables is no longer necessary.

The fasteners for the dish are preferably designed as rails into which on the Sliding elements arranged on the rear of the parabolic antenna intervention. The dish antenna can do this assembled by sliding and dismantled again become. This also makes it easy to replace the Parabolic antenna possible to use it against a Exchange dish of other designs.

Other features and advantages of the invention are the subject the following description and the graphic Representation of an embodiment.

An exemplary embodiment is shown schematically in the figure a holding device making use of the invention shown.

A holding device for parabolic antennas includes one Holding arm 10, one as a paraboloid or as part of a paraboloid designed reflection device (not shown) can be attached. On the holding arm 10 are fasteners 20 arranged, for example, as shown, are designed as rails, into the one attached to the back of the reflecting device Sliding elements for fastening the reflection device can be inserted (not shown). On the holding arm 10 is also a receiving device 30 attachable with a receiver for satellite signals, for example by inserting one in the holding arm 10 provided opening 12.

This receiving device shown distorted in the figure 30 is after mounting the reflection device arranged essentially in their focal point. It receives that from the reflection device reflected and focused satellite signals.

The holding arm 10 is, for example, on a mast bracket 14 attached. As can be seen from the figure, points the mast bracket 14 for mounting the bracket arm holes 15 and slots 16 so that the holding arm 10th its inclination is adjustable. The mast bracket 14 itself is rotatably arranged on a rod-shaped mast, so that an alignment of the reflection device on a satellite is possible. In the holding arm 10 a measuring device 40 is integrated, which has an alignment of the holding arm 10 to a maximum satellite signal allows. The measuring device 40 is so integrated in the holding arm 10 that when the Measuring device 40 a maximum satellite reception signal is found, this also in a later Parabolic antenna to be attached occurs. The measuring device In other words, 40 is arranged so that with an alignment of the holding arm 10 to a maximum Satellite reception signal this also when fastened the reflection device occurs. This measuring device 40 can be an additional small measuring device for satellite signals. Beyond that, however also the receiver, which is part of the receiving device 30 is integrated in this for the adjustment of the holding arm and only later after the adjustment has been made the receiving device 30 can be mounted. In this Trap can be part of the holding arm 10 as a paraboloid or be part of a paraboloid and so to speak represents a reduced reflection device for the adjustment of the holding arm.

Solar cells 42 are also arranged on the holding arm 10, which supply the measuring device 40 with energy. In this way, supply lines can be omitted.

The attachment of the holding device and the reflection device now proceed as follows:

First, the holding arm 10 is attached to the mast bracket 14 and aligned with the aid of the measuring device 40 to a maximum satellite reception signal,
thereupon the holding arm 10 is fastened to the mast holder and this to a mast,
then the reflection device is fastened by pushing it into the holding rail 20.

The holding device for parabolic antennas described above not only has the great advantage that it is essential is better and easier to assemble than from the State of the art holding devices that always together with the reflection device to a maximum Satellite reception signal to be aligned have to. Thanks to the tool-free attachment of the reflection device is also an easy one Exchange of paraboloid or reflection devices other designs easily possible. This can be used especially for advertising purposes, but also for customization to new circumstances, for example changed ones Facade colors, changed roof colors for buildings and the like may be advantageous.

Claims (9)

1. A method of adjusting parabolic aerials with a reflector attached to a bracket (10), the reflector being designed as a paraboloid or as part of a paraboloid, and with a receiving device, located essentially at the focus of the reflector, characterized by the following steps:

   first, the bracket (10) is adjusted by means of a measuring device (40) installed in it, without the reflector being attached to the bracket (10), and

   then the reflector is fastened in a detachable manner to the bracket (10).
2. A method according to Claim 1, characterized in that the receiver of the receiving device (30) is used as the measuring instrument (40).
3. A method according to Claim 2, characterized in that the receiving device (30) is attached to the bracket (10), and part of the bracket (10) designed as a paraboloid or as part of a paraboloid is used as a reflector.
4. A mounting device for parabolic aerials, comprising a bracket (10), fastening elements (20) arranged on the bracket for the attachment of the parabolic aerial, and a receiving device (30), characterized in that a measuring instrument (40) for detecting satellite signals is integrated in the bracket, and the parabolic aerial can be attached in a detachable manner to the fastening elements (20) without the use of tools.
5. A mounting device according to Claim 4, characterized in that the bracket (10) in the region of the measuring instrument (40) is designed in a paraboloid shape or as part of a paraboloid.
6. A mounting device according to Claim 4 or Claim 5, characterized in that the measuring instrument (40) is integrated on a chip.
7. A mounting device according to one of Claims 4 [and] 5, characterized in that solar cells (42) are provided on the bracket (10), which provide the measuring instrument (40) with power.
8. A mounting device according to one of Claims 4 to 6, characterized in that the measuring instrument (40) is the receiving device (30).
9. A mounting device according to one of Claims 4 to 6, characterized in that the retaining elements are rails (20), in which sliding elements arranged on the back of the parabolic aerial engage.

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