DE19739832A1 - Mounting arrangement for satellite receiver antenna - Google Patents

Abstract

The arrangement includes two stacked studs (8) projecting from a base holder (1) for fixing a mast. The studs hold a vertically standing twistable cylinder (2) between them. A holding pipe (10) is provided at the cylinder for mounting a parabolic antenna. The cylinder adjusts the horizontal angle and can be moved by hand or by a motor. The cylinder includes a latch (4) which is seated on a latch leaf (5). The latch leaf has several latch positions (6) corresponding to satellite positions.

Description

In single reception systems for the reception of several satellites, it is common to use the parabolic to make antenna rotatable. There is also the so-called polar mount. The easiest you can understand how the polar mount works once you assumes that the dish is placed directly in one place on the equator. Here the geostationary satellites are lined up in a vertical arc like one Chain around the globe. To receive it, the bowl must be, for example, 0 ° degrees (East) to 90 ° and again to 0 ° (west). Is there a satellite on highest path point (90 °), the parabolic dish is virtually on its back. Perpendicular to the The Earth's axis is aimed at a satellite on the horizon in the west or east. The declination Depending on the location, the offset setting tilts the field of view of a satellite antenna geostationary arch. This "correction" angle ranges from 0 ° at the equator to approximately 10 ° in the extreme north or south still inhabited. The setting of the declination changes the tracking movement of the polar mount from a circular movement (at the equator, reception system viewed from the side) into a flat ellipse (all the way flatter, the further the location is from the equator). The declination angle can be Part be compensated for by an average elevation angle when the satellite positions do not stand too far east or west.

Assuming the correct assembly, the parabolic mirror is always on the orbit orbit orbit of geostationary satellites aligned over the equator. Usually a Lift motor used around the different satellite dish Align satellite positions and pan across the sky. The is because the polar mount has a certain declination offset angle (also Axis of rotation called DAW), at which the highest elevation angle is exactly in South lies and falls to the east and west.

The setting of the declination changes the tracking movement of the polar mount from a circular movement (at the equator, receiving system viewed from the side) in a flat ellipse (the flatter the farther the location is from the equator). Since that too receiving satellites are up to 50 ° to the east and west and thereby the emerging Deviation is not very large, this can be partly due to the elevation angle of the Parabolic antenna can be corrected.

The most important thing when installing a parabolic antenna is that of the antenna mast to which it is to be attached, is exactly vertical. Even slight deviations lead significant errors in tracking by the polar mount. Fortunately, it does when turning the mirror, the converter is also inclined to the correct angle Satellites, so that the polarization direction is almost automatically correct. Deviations can be corrected using most polar receivers using the polarizer.

The known construction with the patent number DE 195 33 396 is for manual adjustment a suitable option, but which is very far apart Not enough satellite positions that arise from the polar axis angle Position deviation is taken into account and therefore inaccurate settings are made.

The invention is therefore based on the object of a holding and adjusting device create it by a simple swivel movement around a fixed axis, it allows align commercial antennas in the desired satellite positions. The Swiveling movement can be generated by hand or with the help of a motor. Because exactly in the south position of the arch the zenith lies on which the satellites are located, but all the more so continue to point the satellite positions to the east and west, the arc flattens out, As a result, the increasing deviation of the polar axis angle is not sufficient takes into account what leads to poorer or no reception of the antenna.

This problem is solved by the in the characterizing part of claim 1 specified characteristics. To make a sufficiently precise setting for the outside  To get satellite positions, it is therefore necessary to create a device which takes into account the deviations caused by the polar axis angle.

The polar axis angle (a) is generated by the connecting bars in its angle are attached from the basic bracket. The cylinder, which is movably supported, is held by the connecting webs and is at right angles to them. The on Cylinder-mounted lever is used to adjust the satellite positions and is in the same Polar axis angle as the connecting web to which the locking leaf is attached. Divided by two The actual holding tube is placed in front of further connecting webs. This serves for Attachment of the satellite dish and is exactly vertical in the south direction as that Basic bracket. With a swiveling movement, the parabolic antenna now becomes one flattening arches to the east or west describe how the actual Satellite positions are on the horizon.

The invention is based on the idea of creating a fastening device

• - which by simply swiveling a lever a parabolic antenna in different Brings satellite positions and takes into account the deviation of the polar axis angle and therefore exact alignment of satellite positions also enables that outside in a west or east position.

The invention is explained in more detail below with reference to FIG. 1.

The basic bracket 1 is fixed to a mast or holding tube with appropriate screw connections. Two webs 8 are attached to the basic bracket 1 at the polar axis angle (a) and enclose a cylinder 2 at a certain distance. The cylinder 2 is movably mounted about its vertical axis with two fastening screws 2.1 . The lever 3 is attached to the cylinder 2 . This lever 3 rests on a locking leaf 5 with a certain pressure. For this purpose, the locking lug 4 is fastened to the lever 3 and engages in the locking points 6 . These locking points 6 correspond to the horizontal angles of the individual satellite positions, which runs around the axis of the cylinder 2 . The locking sheet 5 is held by the connecting web 7 . A fixed connecting web 7 connects the locking leaf 5 to the basic bracket 1 . This creates the back pressure for lever 3 . This means that a parabolic mirror is held securely in any position. The connecting web 7 , locking plate 5 and lever 3 are in the same polar axis angle (a) as the webs 8 and cylinder 2 . A holding tube 10 is mounted in front of the cylinder 2 through two connecting webs 9 . The parabolic mirrors are screwed onto the holding tube 10 .

Claims (3)

1. Fastening device for a satellite receiving antenna with an adjusting mechanism for different satellite positions, characterized in that

• - Two webs ( 8 ) arranged one above the other protrude from a basic bracket ( 1 ) for mast attachment of the fastening device. The two webs ( 8 ) are aligned in a corresponding polar axis angle (a), which is location-dependent. The webs ( 8 ) hold a vertical, rotatable cylinder ( 2 ) between them from the basic holder ( 1 ) at a certain distance,
• - On the cylinder ( 2 ) via two connecting webs ( 9 ) a holding tube ( 10 ) for attaching the parabolic antenna is attached, which is at the same vertical angle as the basic bracket ( 1 ) when this holding tube ( 10 ) is at the highest point after a Orientation, is in the south position,
• - The cylinder ( 2 ) is used to adjust the horizontal angle and can be operated by a motor (?) or by hand,
• a lever ( 3 ) is fixedly arranged on the cylinder ( 2 ), through which the cylinder ( 2 ) can be rotated about its vertical axis,
• - A latch ( 4 ) is attached to the lever ( 3 ) at its distal end from the cylinder ( 2 ),
• - The locking lug ( 4 ) due to the internal stress of the lever ( 3 ) rests on a locking leaf ( 5 ) which is fastened to a non-rotatable connecting web ( 7 ), so that the adjusting lever ( 3 ) with locking lug ( 4 ) and the locking leaf ( 5 ) and the connecting web ( 7 ) are arranged above all in the same polar axis angle (a),
• - The locking sheet ( 5 ) has a plurality of locking points ( 6 ) corresponding to the satellite positions to be set.

2. Fastening device according to claim 1, characterized in that the locking positions ( 6 ) are interchangeable with a locking sheet with further locking points for the setting of the satellite receiving antenna to other satellite positions. 3. Fastening device according to claim 1 and 2, characterized in that the rotatably mounted cylinder ( 2 ) can be adjusted both by hand and by a motor.