SU25925A1 - Device for direct reading of the true bearing - Google Patents

Description

It is known that the angle of rotation of the direction finder or direction-finding disk, generally speaking, does not give a true bearing. At the same time, the influence of the environment surrounding the direction finding installation also plays a certain role, since the metal objects located near the direction finder change the plane of the waves exciting the antenna with their induced radiation. Typically, experimentally compiled tables or curves are used to determine the true bearing; Correction values taken from these tables or curves are added or subtracted from the measured bearings in order to obtain a true bearing. The present invention aims at eliminating these inconveniences and consists in the structural design of the device, by means of which it is meant to directly count the true bearings on the direction finding disk.

In FIG. 1 depicts the proposed device; FIG. 2nd and 3rd modification.

With the bearing wheel B (Fig. 1) rotating around a fixedly mounted bearing disk a (in the case of a ship bearing installation, the bearing bearing disk is usually fixed in such a way that its diameter passing through the 0 ° and 180 ° divisions coincides with the center axis of the ship ), the fixed arm is connected, for example, on the wheel axis by means of the screw d to which can rotate with the wheel: around the axis. The shoulder c serves as a guide for the radially movable slider e, on which the pointer L. is placed. This pointer can be made in the form of a straight line, for example, in the form of a tight thread, thin line, applied on a transparent plate (from celluloid, mica and etc.), fortified

on the slider. The pointer L serves to count the true angles. In addition, the slider may have a radial pointer g, similar to the pointer A, for reading the angles of rotation of the bearing wheel. The slider moves radially with the help of a roller i placed on the extension of the slider and sliding along the guide curve k deposited on the fixed disk a. The roller is pressed to the curve — by means of two ffs, attached at one end to the slider, and the other to the extensions of the shoulder c. The curve k has such a shape that the intersection point of the pointer h with the scale p of the fixed disk gives a true bearing. If, for example, the correction is zero at the corresponding location, then the pointer L crosses the pointer g just on the scale, so that the values of the p-angle of the bearing wheel - and q - the true bearing - are the same. If the correction is positive, then at the corresponding wheel position, the slider moves radially from the axis of rotation /, so that the intersection point hw.g lies outside the disk, and the intersection point hep lies to the right of the intersection point g with p; approaching the axis of rotation, so that the intersection point h is tl. g lies inside the disk, and the intersection point hep lies to the left of the intersection point g with p.

In the modified device (Fig. 2), the pointer g for counting the corners of the bearing wheel is placed on the spoke of the wheel, and the pointer L for counting the true bearing is also located radially on the crank, which is driven by the wheel b by means of the lever tg. This lever is connected at one end to the crank t by means of a hinge p, and at the other end to the wheel b by a hinge q. In this case, the pointer h can also be made in the form of a dash on a transparent plate o, attached to the end of the crank t.

The hinge connection q is placed on the plate v, located on the transparent plate g, pin (heated to the axis s by means of the pressure plate t and screws X. Spring /, tension between the extension of the crank m and plate V, presses located approximately in the middle of the lever p roller g to the guide disk k, which, as in the previous example, is located on the direction finding disk a and is fixedly connected to this disk.Thanks to the described transfer lever, while rotating the direction finding wheel b, pointer A advances pointer g when polo major corrections and lags in case of negative, if the curve k is chosen appropriately.

The above-described device for the direction-finding disk is recommended to be combined with a mobile compass scale and, best of all, so that this scale is located coaxially with the disk slightly above the plane of pointer A. Then, using the pointer, A, you can also count the angles between the bearing ray and the meridian. Then, in the case of the device of FIG. 1, the scale of the direction-finding disk must, of course, be located not on its outer edge, but in close proximity to the compass divisions, marked on the outer edge of the movable compass wheel, so that both scales cross the obliquely set pointer A at approximately the same point.

For the device shown in FIG. 2, this is not necessary, since here the pointer A occupies a radial position, and the direction finding scale can be located on the outer edge of the direction finding disk. FIG. 3 shows the combination of the device of FIG. 2 with a movable compass disk n. In this case, it is necessary that the outline of the guide disk k give the movement of the pointer A, which exactly corresponds to the required corrections. Of course, a certain correction curve (ship deviation curve — Bordablenkungskurve) corresponds to a certain type of ship on a certain ship equipment and could be used for equally equipped vessels of the same type with identical guide discs k. However, it is better in each individual case to adapt the guide disk to the features of the ship (generally speaking, to the features of the direction finding device and its environment). For each individual case, such a disk can be made, for example, in FIG. 2. The roller r in it for this purpose must be replaced by an appropriate marking device,

and in the place where the disk k will later be installed, a plate must be installed from which this disk will be cut. If, then, at different angles of the direction-finding wheel, the pointer A with its crank t is moved to the positions corresponding to the counting of true bearings, and the replacement roller is pressed, the marking device to the specified plate, then the sharp edge of the marking device, corresponding to the points of contact of the roller g, makes slab mark. From these marks, the contour of the desired guide curve k is determined, which is then cut out from the plate.

The subject of the patent.

Claims (6)

1. A device for directly counting a true bearing, characterized in that the pointer A, moved by the direction-finding wheel on a fixed direction-finding scale, is movable relative to the wheel by means of the guide part k fixedly attached to the direction-finding disk. 2. In the device according to claim 1, use the pointer L, made in the form of a straight line, for example, a dash applied on a transparent plate, a strained thread, or the like (Fig. 1 and 2). 3. The form of the device according to paragraph.n. 1 and 2, characterized in that the pointer, movable radially along the shoulder, rotating with the direction-finding wheel, is inclined to the axis of the shoulder (Fig. 1). 4. The form of the device according to claim 3, characterized in that the radially moving and carrying pointer of the slider in the form of a frame, a window or the like, is provided with a roller or a pin sliding along a fixed guide curve and pressed to the guide curve spring (Fig. 1). 5. The form of the device according to p. 1 and 2, dated.% So that the pointer is placed on the crank, which is rotated by the direction-finding wheel by means of a lever p, pivotally connected to the direction-finding wheel or with the crank at two points and one point pressed by the spring by means of a roller or a pin to the guide curve k (Fig. 2). 6.In the device according to claims 1-5 with a stationary direction-finding disk, use a rotating compass scale coaxial with it.