SU43753A1 - Cloud positioning device - Google Patents

Description

In the proposed device for determining the position of clouds, consisting of the usual stereoscopic range finder connected to an altimeter, the stand of the latter, with the aim of determining the azimuth of the cloud, is equipped with an alidade and mounted on an axis fastened with a limb.

In FIG. Figure 1 shows a view of an instrument for determining the position of clouds in front; FIG. 2 - the same on top.

At the ends of the ruler 3, two flat mirrors 7 and 2 are strengthened. The planes of the mirrors form straight dihedral angles with the surface of the ruler, and with edges at 45 angles, straight lines are drawn on the surface of the mirrors in the y and bb directions.

In the middle of the line is located the second pair of mirrors 4 and 5, respectively, parallel mirrors / and 2.

The path of the rays with vt c is the arrangement of the mirrors.

On the ruler 3, at equal distances from its middle, two thin steel rods 6 to 7 are fixed perpendicular to it, one 6 of which are fixed, and the second 7 is strengthened in the carriage 8, capable of moving with the help of crestal 9 perpendicular to its edge.

The carriage is equipped with a pointer / O, located opposite the divisions applied on a scale along the groove.

In front of the mirrors 4 and 5 there is a flap 7 / with horizontal slots (diopters) 72 and 75. Between the mirrors 4 and 5 there is a disk 15 rotating on a centrally horizontally reinforced J4 axis disk 15 with degree divisions on it.

Against the divisions of the disc on the stand 76, there is a pointer in the form of a fine stroke 77.

The disk J8 is eccentrically fixed in the disk, as a result of which the center of gravity of the disk does not coincide with its geometric center and the disk therefore assumes a position in which the center of gravity and the axis of rotation are located in the same vertical plane.

The degrees of division on the disk are placed in such a way that, with the horizontal position of the ruler, the pointer 77 is on the zero division.

Bottom of the ruler is attached at two ends by a straight-curved cylindrical rod-axis J9 so that its middle part is parallel to the edge of the ruler. The rod can be laid on top of cylindrically drilled stand lagers 27. Camps are closed with plates 22 and 23 attached to the lagers with screws 24 and 25,

Through one of these plates passes the clamping screw 26, with which the rod can be tightly fixed in the lagers of the stand 21. The latter is connected via a cylinder 27 to a disk 28 (alidade), on the circle of which there is an index 29. A conical hole is drilled along the axis of the cylinder whose upper part of the device is mounted on the vertical Loo conical axis 30, tightly concealed | 1N y / o. with a limb 31 divided by Grav /: nk, 1e dividing and fixedly mounted on the head 32 of the tripod 33.

Using the clamping screw 34, the upper part of the device can be attached to the axis of the limb.

The limb divisions are arranged in such a way that the reading, read by the alidade index, gives the rhumb of the plane perpendicular to the edges of the ruler.

In stationary-type installations, the tripod 33 is fixedly fixed in the ground, the surface of the head 32 is attached to a horizontal position. The instrument limb 31 is oriented along the true meridian and tightly attached to the tripod head.

In portable-type installations, a limb with a compass and a level, provided with a stand with three lifting screws, is fixed on the tripod head with a help of a rolling screw.

The corresponding construction can be entirely taken from the description of modern geodetic instruments.

The principle of operation and method of application of the device described above is as follows.

In mirrors 4 and 5, due to the reflection of the rays from the mirrors / and 2, an image of the observed cloud and a pair of intersecting straight lines deposited on the surface of the outer mirrors are obtained. These images are viewed through a pair of diopters / 2 and 13, as a result of which the observed object is drawn to the observer stereoscopically.

Stereoscopy in this case is strongly enhanced in comparison with the usual one, because mirrors / and 2 are located at a considerable (about 1 meter) distance from each other.

The images of rods b and 7 observed in mirrors 4 and 5 are also represented stereoscopically, with the apparent distance of the image of the rod from the observer changing due to the movement of the carriage 8.

To determine the distance to the cloud, rotate the device around the axes 30 and 19 to position it in such a way that the image of the observed object coincides with the image of the point of intersection of direct aa and bb.

Rotating the knockout 9, the carriage 8 is positioned so that the stereoscopic image of the rods 6 and 7 appears at the same distance with the image of the cloud.

After the indicated installation of the device, the distance to the cloud is determined by a direct reading of the division coinciding with the index of the carriage 8. For this purpose, the device must be calibrated in advance by observing terrestrial objects located at known distances from the device. The angle drawn by the sight beam with the horizontal plane is counted along the vertical disk / 5. The rumb of the horizontal projection of the sight beam is counted along the horizontal limb 5 /.

The data obtained in this way are sufficient to determine the cylindrical coordinates of the observed object: the height, the magnitude of the horizontal projection of the measured distance, and its direction.

Having cylindrical coordinates for two consecutive points in time makes it easy to get the direction and linear velocity of the cloud.

For observations on clouds located at an angle close to the straight line, the upper part of the device can be used as a hand-held device, for which rod-axis J9 is released from the base lager 2 /.

The subject matter of the invention.

Claims (2)

1. An instrument for determining the position of clouds, consisting of a connected with the integrated altimeter of the stereoscopic rangefinder, characterized in that, in order to determine the azimuth of the cloud, the stand 21 of the rangefinder is equipped with an alidade 28 and is mounted on the axis 30 fastened with the limb 31. 2. The form of the instrument according to claim 1, characterized in that for measuring the distance to the cloud at equal distances from the middle on the range 3 of the range finder, rods 6, 7 are perpendicular to it, of which rod 7 is movable along perpendiculars to the edge of the ruler scale for counting the distances to the cloud. , f,