RU2062535C1 - Antenna positioning device - Google Patents

Abstract

FIELD: devices for antenna positioning in bearing and elevation. SUBSTANCE: clip 3 around tower 1 made by cutting U-shaped recess in platform is used to lock platform and antenna reduction unit mounted on it in azimuth guidance. Control rod 14 of elevation positioning mechanism is hinged on one end on rear side of reflector 9 and on other end, in clip 12 hinged on platform. EFFECT: improved design. 4 dwg

Description

 The invention relates to antenna technology and can be used as a rotary device for azimuthal and elevation movement of the antenna.

Known devices for orienting the antenna, containing a vertical mast, a guidance mechanism in azimuth, a guidance mechanism in elevation [1,2]
Of the known solutions, the closest to the claimed technical essence and the achieved effect is a rotary support device [2] containing a reflector, a vertical mast, a platform made in the form of a housing with a support flange, an azimuth guidance mechanism, an angle-elevation guidance mechanism, consisting from a bracket fixed to the housing and pivotally on the reflector. In the lower part of the mast there is a persistent flange on which the flange of the housing 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.

 The main disadvantage of the known device is the design complexity, the presence of a large number of parts makes it not technological. The design of guidance mechanisms significantly limits the range of guidance.

 The technical result of the invention is to increase the reliability, accuracy of installation and reduce installation time of the reflector.

 The technical result is achieved by the fact that in the known device for orienting the antenna, comprising a reflector connected to 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 second end on the platform, according to the invention, a U-shaped cut with tides is formed in the platform, forming a clamp, the second end of the rod is fixed by means of an inserted clamp pivotally mounted on the platforms , Wherein the thrust collar mounted in the introduction with the possibility of longitudinal displacement.

 Distinctive signs from the prototype are significant, since each of them is necessary, and all together with the restrictive ones are sufficient to achieve a technical result.

 Indeed, the implementation of the platform with a U-shaped through-cut, forming a clamp, as well as traction, fixed with the possibility of longitudinal movement in the newly introduced clamp, improves reliability, accuracy and reduces the installation time of the reflector. Under wind loads, the cast platform does not jam. Due to the fact that the platform is designed as a universal unit containing a set of installation elements, this quickly and accurately allows you to dock various mechanisms and types of reflectors.

 The claimed solution meets the criterion of "significant is different," since no distinguishing features were found in the studied analogues.

 The invention is illustrated by drawings, where in Fig.1 shows a General view of the supporting device, in Fig.2 is a rear view, in Fig.3 is a view along arrow A, in Fig.4 is a view along arrow B.

 The device for orienting the antenna contains a vertical mast 1. On the upper part of the mast, a platform 2 is installed with free rotation, having a U-shaped cut, which, together with the tides, forms a clamp 3, which serves to fix the platform 2. On the vertical mast 1, when pointing in azimuth, the fixation is carried out with the help of a bolt 4, which retracts the clamp 3. In the upper part of the platform 2 there are two tides 5 having a hole for installing the axis 6 of guidance on the corner-place. In addition, the tides 5 have a groove that allows you to fix the axis 6 with the bolts 7. The ends of the axis 6 of the guidance in the angle-place are mounted in the supports 8 with the possibility of free rotation and are the supports of the reflector 9. The platform 2 has a shank 10 in which a hole is made for installation of the axis 11. The axis 11 is fixed in the clamp 12 with a bolt 13. The clamp 12 is used to fix the linking rod 14 in the angle-place with the bolt 15. The link 14 is made in the form of a smooth pipe, the upper end of which is screwed into the nut 16. The ends of the axis 17 installed with the possibility of free rotation nii in the supports 18 and are the second support of the reflector 9.

 The device operates as follows. By loosening the screws 4, tightening the clamp 3, fixing the platform 2 and turning the platform 2, relative to the vertical mast 1, we direct the reflector 9 to the satellite in azimuth. After pointing the antenna, we fix the platform 2 with the clamp 3. After that, we direct the antenna in the angle-place. To do this, loosening the clamp 12 we move the rod 14, while the reflector 9 rotates on the axis 6 guidance along the corner-place in the supports 8. To compensate for the change in the length of the rod serves the axis 17, mounted in the supports 18, and the axis of the clamp 12. After pointing the angle places we fix thrust 44 with a clamp 12.

 Using the proposed antenna pointing device allows the use of various types and designs of reflectors, and also simplifies the antenna pointing at the satellite by reducing the number of nodes and does not have a limitation of pointing angles in azimuth and elevation. YYY2

Claims (1)

 A device for orienting the antenna, comprising a reflector, a platform mounted on the mast with the possibility of azimuthal rotation, an angle-elevation guidance mechanism made in the form of a rod, one end pivotally mounted on the rear side of the reflector, and the other end on the platform, characterized in that a U-shaped cut with tides is made on the platform, forming a clamp covering the mast, the second end of the link is fixed by means of an inserted clamp pivotally mounted on the platform, and the link is installed in the inserted clamp with zmozhnostyu longitudinal movement.

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