SU883650A1 - Plan altitude beacon - Google Patents

Description

(54) PLANNED HIGH SIGN

one

The invention relates to geodetic instrumentation, in particular for securing reference geodetic network points.

The known design is a planar sign in the form of a return plumb, including measles, embedded in stable layers of soil, the center of which is transferred to the top with the help of a string and a ball float, having a stem with a cross-hair, coaxial with the center. Fluid is poured directly into the underground flank and well 1.

The disadvantage of this design lies in the fact that with a significant depth of the core, large pressures of the liquid column can cause flow in the connecting parts, moreover, the string does not have a temperature compensator, therefore, changing its length does not allow to use the reverse plumb line as a height mark.

Also known is the design of a planned mark in the form of a dry return plumb, including measles, embedded in a stable layer of soil, the center of which is transferred upward with a string, a casing, a protective cap and a tension mechanism, made in the form of a floating ice ring. liquid 2.

A disadvantage of the known device is that the liquid from the annular basin can evaporate, which, together with the absence of the temperature compensator of the string, leads to a significant oscillation of the toroidal float in height and therefore does not allow to use this sign as a tall one.

The purpose of the invention is to improve the accuracy of compensation for temperature fluctuations of the string length.

This goal is achieved by the fact that, in addition, two strings are additionally inserted, attached by the lower ends to the bark, and by the upper ends to the mechanism

20 tensioning the string, made in the form of two coaxially arranged magnets, one of which is made in the form of a ring and mounted for height adjustment with the help of adjusting screws resting on the protrusions of the protective cap, and the other magnet is made in the form of a disc with a rod mounted in the center, and by bimetallic consoles, to which the upper rings are attached

strings, while the stem is passed through the hole of the ring magnet.

Moreover, a scale is applied on the rod, and a nonius is fixed on the ring magnet against the scale.

FIG. 1 shows the plan-tall mark, vertical section; on fi g. 2 - the same, when removing the upper magnetic disk, top view. , 1 The plan-height mark contains casing 1, on the basis of which bark 2 is laid, to which three invar strings 3 are attached. The upper ends of the invar strings 3 are passed through the collar 4 and attached to the bimetallic brackets 5 of the lower small magnetic disk 6 fixing the center mark using a rod 7 with a scale of 8 on the side surfaces and a crosshair on the end 9. The rod 7 enters the central hole of the upper large magnetic disk 10 having a nonius 11, level 12 and lifting screws 13, the upper large magnetic disk 10 is installed along plug screws 13 on the protrusions 14 of the protective cap 15. The lower small magnetic disk 6 is installed with a clearance of a relatively large upper magnetic disk 10. The cover of the protective cap is not shown in the drawings.

The work of the vertical-height sign is based on the use of a duplicity of magnets, in which the opposite poles are attracted with the greater force, the closer they are located to each other. In connection with this, the upper magnet 10 of large dimensions is brought out by means of lifting screws 13 and 12 a horizontal position, and a lower magnet 6 of smaller dimensions, the bimetallic arms 5 of which are connected with the invar strings 3 passing through the collar 4 (ensuring the stable position of the lower magnet 6) and the lower ends connected with the center of box 2. is brought to the upper magnet 10 with a gap in such a way that the magnetic attraction forces provide the corresponding laying depth of the core 2 to a uniform tension of the strings 3, with which the attraction of one of the edges of the lower magnet b is eliminated, which also contributes to the coaxial arrangement of the upper 10 and lower 6 magnets. Since the upper magnet 10 is significantly larger than the lower 6f, the Pra-Tychosky magnet will act on the lower 6th magnet b and the magnetic force will be maximal (due to the minimum gap).

Therefore, the planar position of the lower magnet b will not affect the horizontal deviations of the upper magnet 10, and the vertical displacements of the upper magnet 10 are eliminated by maintaining a constant gap between the magnets 4 controlled on the scale of the rod 8 and the nonius 11.

Stabilization of the magnitude of the gap between the magnets with a change in temperature, which causes a change in the lengths of the strings, is provided by bimetallic consoles 5 o

Thus, crosshair 9 of stem 7 will always be above the center of core 2 and stabilized in height.

The use of Yilan high mark will increase the stability of the mark, insensitivity to environmental changes, simplify the alignment and operation of the mark.

Claims (2)

Invention Formula .1, An elevation mark containing a casing, a protective cap, measles with a string attached to it, and a string tensioning mechanism, characterized in that extending the functionality of improving accuracy by compensating for and temperature fluctuations of the string; two strings are additionally inserted in it, attached by lower ends to the bark, and upper ones - to the tension mechanism of the string, made in the form of two coaxially arranged magnets, one of which is in the form of a ring and mounted with the possibility of adjusting the height of the protrusions of the protective cap, and the other magnet is made in the form of a disk with a rod mounted in the center and bimetallic brackets, which are attached Lena upper ends of the strings, while This rod is passed through the holes. ring magnet. .2, the sign on l, 1, about tl and h aa y and with the fact that a scale is applied on the rod, and a nonius is fixed on the ring magnet against the scale, Sources of information taken into account in the examination, 1. Bolshakov 3, D. and others. Methods and instruments of high-precision geodetic measurements in construction. JM., 1976, s, 4.2. , 2. Ibid., With. 42, fig. ,9.