RU13724U1 - ANTENNA ORIENTATION DEVICE - Google Patents

Description

Orientation device am sipes

I (the ring model is worn off to the angstop) and can be used by the K) iana as a support-lOBOpoi pop device for imutual and lobe moving antepn

Known rotary ycrpoiici in a satellite antenna, containing a reflector, a vertical machg, a platform in the form of a pipe with a flange. Guidance on yimuth is reduced by turning the mast in a rough platform, followed by fixing it with screws, and the iM-guidance in elevation contains a U-shaped bracket pivotally mounted in the upper part of the mast, and guides in the form of angles with longitudinal grooves for screws, allowing to carry out the movement in elevation with subsequent fixation 111.

A disadvantage of the device is the lack of accurate adjustment of the position of the reflector.

A rotary support device is known that contains a reflector, a vertical mast, a platform made in the form of a body with a support flange, an azimuth guidance mechanism, an angle guidance mechanism, consisting of a bracket fixed to the housing and hinged to the reflector.

In the lower part of the mast there is a persistent flange on which the housing flange is mounted with the possibility of rotation relative to each other. The flange has holes that allow you to use the adjusting screw and lock them relative to each other 2.

The main disadvantage of the device is the complexity of the design, and the presence of a large number of parts makes it non-technological.

MnKH01Q3 / 8J / 12

the ability to rotate around its axis and fix, a rotary device mounted to rotate around an axis perpendicular to the axis of the carrier pipe, and equipped with a drive, the axis of the input shaft of which is located in the plane of rotation of the rotary device, and a corrector intended for fixing and correcting the position of the antenna reflector the plane passing through the axis of the output shaft of the rotary device and the optical axis of the antenna reflector 3.

The device does not provide high accuracy of combining the trajectory of the optical axis of the antenna reflector with the geostationary orbit due to the fact that it does not contain means for accurately adjusting the position of the carrier pipe.

A device is known for orienting an antenna in azimuth and elevation, containing a rod fixed by clamps to a mast or wall with a possible angular displacement in azimuth g). and two hinges. connecting the reflector with the rod, with the possibility of vertical movement along the rod, providing guidance in elevation 4.

The disadvantage of this device is the difficulty of accurately adjusting the angles in azimuth and elevation.

Izveono rotary support device for a satellite antenna containing a column supporting a pipe. install 11m with the possibility of noBopOFu relative to the column around its axis and fixation, noBOpoin device equipped with a means of setting up the meter for its rotation around it. perpendicular to the axis of the carrier () iii. and a drive, the axis of the hollow shaft of which is located in the rotation plane of rotation () 1 hr of the device., and the corrector, intended for fixing and correcting the angular position of the RSFL (zhtor n. antenna reflector 5.

The device does not allow to solve the problem of creating a compact device with this circuit diagram of the mechanism.

The described disadvantages can be eliminated by mounting the reflector on a platform mounted on the mast with the possibility of azimuthal rotation, a guidance mechanism in elevation made in the form of traction, one end pivotally mounted on the back of the reflector, and the other end on the platform.

Of these devices, the closest in technical essence and the achieved results is device 6. The device comprises a reflector connected to a platform mounted on the mast with the possibility of azimuthal rotation of the guidance mechanism in elevation, made in the form of a rod, one end pivotally mounted on the back of the reflector, and the other end on the platform, and the rod is installed in the inserted collar with a possible longitudinal displacement.

The tags of this device are:

a) lack of precise adjustment in azimuth and elevation;

b) low reliability of the terminal fastening of the tie rod in elevation and platforms1 1 on the mast;

c) mean full mass dimensions and. as a follow-up. device non-compactness.

The objective of the utility model is to increase the accuracy of adjustment in azimuth and Y) lu Niecra with an increase in the reliability of damage, and to reduce the overall dimensions.

In order to accomplish this task, the device for orienting aHieii Bbmo.iiHCfio 1 in the form of a plate mounted on a mast, coaxially and symmetrically, has a valuable pair of brackets with possible i, io axes and iia axes to a certain angle in elevation

The rod is made in a T-shape with pins on one end located in the holes of the brackets, while the axis of the holes are offset relative to the axis of rotation of the brackets, and the second end is mounted in a hinge element located in the U-shaped cut of the platform.

Fasteners that interact with the hinge and traction pass through the tides of the cut.

Fixing elements in contact with the surface of the hinge element are placed on the rod, the contact surfaces are spherical.

A mast is installed on the mast, having an H-shaped groove, through the walls of which pass the adjusting elements interacting with the rod fixed on the platform.

The brackets have radius grooves with latches placed in them installed in the platform.

The essence of the utility model is illustrated by drawings, where in FIG. 1 is a general view of the device; figure 2 is a cross-section along AL: in fig.Z is a view of the device but in the heating B.

The device for orienting the Aichina (Fig. 1.2) contains a vertical mast 1, on the upper part there is a platform 2 with a bracket 3 axially and symmetrically placed on it, the brackets 3 with the possibility of rotation on the axes 4 at a certain angle in elevation.

T-shaped rod 5 with one end of the heganonlen in brackets 3, and the other in the hinge element 6.

I. 1-side element 6 is marked in 1 l-o pasuovi propyl 7 nlatfor.m. 2. formed by tides 8. brown stalks passing i fixing viements 9, interacting with iiKip iiipiii iM) .: 1.men1om 6 and 1Я1ОО 5

The locking elements 10, placed on the threaded shank 11 of the rod 5, are used for pointing and fixing in place and are in contact with the surface of the hinge element 6. The contact surface 12 of the hinge element 6 and the fixing element Bgg 10 is made spherical.

In the brackets 3 there are made radial grooves 13 (Fig. 3.2) with latches 14 placed in them, and the axis of the holes 15 for installing the pins 16 of the rod 5 are offset relative to the rotation axes of the 4 brackets to ensure compact design.

Under the platform 2 on the mast 1 is a collar 17 having a U-shaped groove 18. Through the walls 19 of which pass the adjusting elements 20 and interact with the rod 21, providing guidance in azimuth. The bar 21 is mounted on a platform. On the upper part of the brackets 3, a housing with a reflector 22 is fixed.

The device operates as follows. We unscrew the locking elements 10, providing free movement of the threaded shank 11 of the rod 5 in the hinge element 6. Unscrew the latches 14 located in the radial grooves 13 of the brackets 3, as well as the nuts 23 on the axles 4. We make a rough adjustment of the device according to the elevation angle.

Screwing one of the locking elements 10 and unscrewing the other, we move the threaded shank 11 of the rod 5 in the hinge element 6. The spherical contact surface 12 of the hinge element 6 and the locking elements provides the latter to be installed and precisely adjusted in elevation.

After navigating, we fix the rod 5 by fixing it with the e-post 10. and also with the fasteners 9. the articulated element 6 and the yoling rod 5. We grind the elements with 9 KOHip nuts 24. We fasten the latches 14, marked in the radius grooves 13 of the crown. and also screw the nuts 23 on the axles 4.

Having unscrewed the clamping screw 25 of the clamp 17, we unfold the clamp together with the platform 1, providing coarse adjustment in azimuth, and fix-cvf clamp1 on the mast I.

Adjusting: elements 20, interacting with the rod 21. we make precise adjustment with the subsequent control elements 20 nuts 26.

Sources of information.

1. Japanese application No. 60-30202 BUT 1Q 1/12, 3/02 1985

2. Japanese application No. 60-136401 BUT 1Q 1/12 1985

3.Patent of Germany No. 3704345 HO1Q 3/08 1989

4. French patent No. 2478378 BUT 1Q 1/12 1981

5. Patent of Germany No. 3912525 НО 1Q 3/04 1990

6. Patent of Russia No. 2062535 BUT 1Q 3/08 1991

Claims (4)

1. The device for orienting the antenna, containing a platform with a U-shaped cut and tides mounted on the mast with the possibility of azimuthal rotation, a guidance mechanism in elevation made in the form of traction with the possibility of longitudinal movement, characterized in that the traction at one end is installed in movable the brackets placed on the platform, and the second - in the hinge element, placed in the U-shaped cut, fasteners passing through the tides of cut, interact with the hinge element and traction, and the fixing elements Options placed on the rod, in contact with the surface of the hinge member, a collar mounted on the mast, configured U-shaped groove, the adjusting elements extending through the walls of the U-shaped groove, interact with the rod fixed to the platform.  2. The device according to claim 1, characterized in that the contact surface of the hinge element and the locking elements is made spherical.  3. The device according to claim 1, characterized in that the brackets have radius grooves with latches placed therein. 4. The device according to claim 1, characterized in that the thrust is made in a T-shape, the trunnions of which are placed in holes with axes offset relative to the axis of rotation of the brackets.