SU1103074A1 - Polarized attenuator - Google Patents

Description

CA9 O Jii The invention relates to instrument making and can be used in scale mechanisms, mainly waveguides of transmitting devices. A multi-turn dial device is known, in which a spiral scale and a multi-turn dial indicator are used, the rotation angle of which is linearly related to the rotation angle of the actuator, which gives readings on the initial and final measurement sections of various accuracy Cl. Closest to the proposed by its technical essence and the achieved result is a polarization attenuator containing three segments of the waveguide with polarization plates fixed in them lying in the same plane, the Medium waveguide carries a notched crown that engages with the Ivmoz worm limit of 90 °. On a single shaft with a screw, a flat multiturn scale is fixed, from which readings are taken by means of a pointer. The attenuation coefficient of the attenuator varies proportionally with cos, where d is the angle of rotation of the main axis of the rotating waveguide. However, the linear relationship between the angles of rotation of the average waveguide and the multiple rotation scale does not correspond to the law of variation of the attenuation coefficient, which is the reason for the low accuracy of reading the tip portion of the angle between the plate of the rotating waveguide and the side of the plates is approaching 90 °. Increasing the accuracy of the reference by lengthening the spiral of the reference scale by increasing its diameter, increasing its turnover or decreasing its schag leads to a significant increase in the size and weight of the attenuator. The aim of the invention is to increase the accuracy of reading by stretching the scale on the final part of the scale without increasing the dimensions of the attenuator. This goal is achieved by the fact that a polarization attenuator containing three waveguide sections with polarization plates in the same plane, the middle of which made rotatable within 90 and carrying a ring gear, coupled with a worm, and a multi-turn spiral cabinet with a pointer, provided with a means of scaling, executed in the form of a rigidly mounted on one Alu with a spiral scale of a disk, on one side of which there is a gear rack, is made in a spiral, the pitch of which is equal to the spiral step of the said multi-turn scale, and the screw is connected to the gear rack by means of a gear wheel mounted on the screw shaft. the pointer is kinematically connected to the rail and the gear wheel by means of a fork embracing them. Such a solution provides a higher accuracy of the reference by introducing a scaling means, which makes it possible to expand the reference scale at the final measurement site. 1 shows an attenuator, a general view; Fig. 2 is a diagram of the scaler mechanism of the attenuator at the beginning of the measurement; Fig. 3 is the same at the end of the measurement. The polarization attenuator contains two waveguide sections 1 with polarization plates 2 and a segment of a circular waveguide 3 rotatable within 90 ° within them with a polarization plate 4. The outer part of the central waveguide carries a gear 5, coupled to a worm 6 located on the shaft 7, a scale mechanism housing is associated with the attenuator housing, consisting of a multi-turn spiral scale 8 mounted on the shaft 9. A disk 10 is mounted on the other end of the shaft, on one of the sides of which is a gear rail 11 is made in a spiral, the pitch of which is equal to the pitch of the spiral of scale 8. On one shaft with a worm 6 at its other end on a sliding key 12 there is a gear wheel 13 which engages with a rack 11. Wheel 13 and a gear wheel 13 In engagement, a part of the toothed rack is covered by a fork 14 mounted on a leash 15, at the other end of which is fixed a pointer 16 on a spiral scale 8. A disk 10 with a toothed rack 11, a toothed wheel 13, a fork 14 and a leash 15 with an index 16 is a scaling means, intended for scaling Aba at the end of the attenuator measurement.

Attenuator works as follows.

When the spiral scale 8 rotates, the disk 10 with the spiral rack 11 rotates. The gear wheel 13, rotating together with the shaft 7, rotates the circular waveguide 3 with the plate 4. Simultaneously with the rotation, the gear wheel 13 moves along the spiral rail 11 along the shaft 7 and carries along the fork 14 that covers it and the rail 11. Which by means of the lead 15 transmits movement to the pointer 16. With the aid of the pointer 16, readings are taken from the multi-turn spiral scale 8.

Thus, by turning the spiral scale 8, the polarization plate 4 is rotated relative to the fixed plates 2 from the initial position, when they lie in the same plane, in a mutually perpendicular direction. The pointer 16 is then moved from the minimum helix radius on a scale of 8 to the maximum.

The introduction of the scaling means allows the reference scale to be stretched on the final measurement site due to the fact that the rotation of the scale 8 in this area corresponds to a relatively small angle of rotation of the plate 4, since the latter is determined by the angle of rotation of the gear wheel 13 moving along the small length of the rack rail relative to large arc on the spiral multiturn scale 8. In the initial section, the gear wheel 13 moves along the large arc of the spiral rail 11, i.e. rotates the plate 4 at a relatively large angle, and the readings from the scale 8 are taken from the small length of the spiral arc.

Thus, stretching the reference scale in the final section, where the measurement accuracy is minimal, is produced by compressing the reference scale in the initial section, which ensures that the accuracy of the reference is increased without increasing the size of the attenuator.

Claims (1)

(5 7) A POLARIZATION ATTENUATOR containing three segments of a waveguide with polarizing plates lying in the same plane, the middle of which is made rotatable within 90 ° and bearing a gear ring coupled to the worm and a multi-turn spiral scale with a pointer ', characterized in that , in order to improve the accuracy of the reading by stretching the scale on the final section of the scale without increasing the size, it is equipped with a scaling tool made in the form of a rigidly mounted on one shaft with a multi-turn spiral scale suit, on one side of which a gear rack is mounted, made in a spiral, the step of which is equal to the spiral pitch of the said multi-turn scale, and the worm is connected to the gear rack by means of a gear mounted on the shaft of the worm with the ability to move along it, while the pointer is kinematically connected to the rack and gear by means of a fork covering them.