RU2080557C1 - Geodetic beacon and device for its installation - Google Patents

Abstract

FIELD: geodetic instrument engineering and space geodesy. SUBSTANCE: geodetic beacon has a cylindrical base with tapered grooves and heads, in which an antenna or cap are alternately installed, an adapter connecting the geodetic beacon base and antenna. The head has a threaded blind hole, and the adapter has a tail-piece on the lower end located bellow the threaded shoulder. The geodetic beacon is installed with the aid of a device consisting of aligned carrier 18, spring plate 16 and mounting plate 12 joined by three adjusting screws 15 and having central hole 19. Central hole 19 receives a replaceable working bush and mounting bar 23 with bearing bush 24 on the top and geodetic beacon 22 on the lower end, and fastening members. Carrier 18 is made in the form of a reinforced bush, with shoulders 26 for installation of bearing bush 24 to be found in the upper inner part, and a recess - on the outer part to receive adjusting screws 15. Positioned in central hole 19 of carrier 18 is mounting bar 23, whose lower end has a male thread for its installation in the blind hole of geodetic beacon 22 during installation and fastening of the latter in a ground hole, and the upper end of bar 23 has head 29 with level 30 on the upper pad. Bearing bush 24 with its bosses 25 rests on shoulders 26 made in the inner part of carrier 18 and placed there with gap 27, which makes it possible to displace the mounting bar with geodetic beacon 22. For rigid attachment of the whole device in the ground, it is furnished with fastening members located in a spaced relation in holes 31 drilled in mounting plate 12. Each fastening member consists of external bush 32 with an eccentric threaded hole, hexagon head 33 located above mounting plate 12 and washer 34 located at the bottom of the mounting plate, and inner bush 35 positioned in the eccentric threaded hole. Rod 37 is installed in the hole of the inner bush to fix the mounting plate in the ground by pressing the lower end of rod 37 to the walls of holes 2 drilled in the ground beforehand. EFFECT: enhanced accuracy of measurement of objects in three-dimensional space. 2 cl, 6 dwg

Description

 The invention relates to measuring equipment, and more particularly to geodetic instrumentation, and can be used in space geodesy, as well as in the global navigation satellite system (SR) when installing markings that serve as reference points on the ground.

 Known high-rise brand, made in the form of the base of a faceted or cylindrical company with a curved neckline for securing the brand in the place of its installation and a head with a hole for the stud, which serves to suspend the leveling rail. The mark’s head is made in the form of a rotating disk with an opening in its end for installing a stud horizontally mounted in the base groove [1] This mark cannot be used in space navigation due to the absence of a transceiving element on it, as well as an element for centering it in a strictly vertical position. Set the specified brand by visually centering in a recess filled with concrete. If you need more accurate centering over the described mark, you can use the device described below for centering over the geodetic mark.

A device for centering a geodetic mark is known, which consists of a base plate mounted on a tripod with three squeezing and three clamping screws and mounted on the casing of the well, two sliders located one above the other at an angle of 90 ^o . The upper slider carries a hollow vertical axis, an arm, a level table and microscopes. A working sleeve with a holder is attached to the free end of the bracket, on which a block with a drum for winding the string is mounted. The calibrated hole of the holder is made strictly aligned with the hole in the working sleeve. A string is wound around the drum, to the lower end of which a load is attached. The load is made up of two parts not fastened together, the cargo itself with a diameter smaller than the diameter of the sleeve of the lower part of the geodetic mark, and the insert with a through calibrated hole and a latch. The housing of the lower part of the geodetic mark is made in the form of a glass fixed in the casing. A sleeve is mounted on the body of the geodetic mark, the center of which is the center of the geo-sign. The housing at the bottom of the geo-sign is filled with damping fluid [2]
As can be seen from the above, the device for centering over the geodetic mark is a very complex structure. No less complicated is the design of the geodetic sign itself. In addition, the use of a centering device taken as an analogue is impossible for measurements in the global navigation system, since the installation of geodetic (marker) signs is carried out mainly in hard rocks, over large areas in remote places and with significant distances between them (up to 100 -300 km in a straight line). Therefore, the use of a centering device with a flexible plummet and a load at the end, the presence of microscopes, damping fluid in the geodetic mark itself, the presence of a tripod mounted on the casing of the well, as well as drilling of a relatively large diameter well (the presence of a drilling rig) in the field and especially in Highlands are completely impossible.

The closest analogue of the invention is a brand made in Germany, which consists of a cylindrical base with a series of conical grooves for better adhesion to the hardening solution, for example epoxy glue. On one side of the cylindrical base along the axis, the flat is removed and a groove is made in it in the form of a keyway open on one side to exit upward the adhesive displaced by the mark when it is installed in the hole. The lower part of the brand ends with a cylindrical girdle. The upper part of the brand, the so-called head, has a cylindrical girdle that serves as a limiter when installed in the hole, and an external thread for installing the antenna. When the brand is installed in the hole on the glue, a centering element with a bubble level is screwed onto the head, and then, after the solution has solidified in the hole with the brand, the centering element is removed and a protective cap is screwed into this place. The brand, including its head, and a removable protective cap are made of brass [3]
The disadvantages of the described design of the brand are, firstly, the need to place its head above the ground surface, and therefore, the possibility of damage by unauthorized persons and animals is not ruled out. Secondly, after centering the brand, it must be held in this position until the epoxy adhesive has completely cured by manual fixation, which is rather difficult in time and does not provide sufficient centering accuracy. In addition, unscrewing the protective cap when installing the antenna after some time also reduces the centering accuracy in the best case, and in the worst case leads to a violation of the brand in general, because the head placed on the surface of the soil is adversely affected by atmospheric conditions, especially under sharply continental climate in mountainous conditions, and the “welding” of the external thread of the brand head and the internal thread of the protective cap occurs.

The closest analogue to the device for installing the mark (geodetic sign) is a stand for geodetic instruments, in particular the T2 theodolite, which consists of a tribrach resting on three lifting screws with protective sleeves. The lifting screws are designed to set the vertical axis of rotation of the theodolite in a vertical position. At the same time, they ensure the stability of the position of the device, especially in the azimuthal direction. The adjusting screws rest on the mounting plate, and between the tribrach and the mounting plate there is a spring plate that presses the adjuster screws' thrust bearings. In the center of the tribrach and the spring plate there is a hole for fixing the theodolite columns, and at the top of the columns there is a handle for transferring the theodolite and for installing the sight on it when using the three-way method. Theodolite telescope mounted on a horizontal axis mounted on column bushings [4]
The main disadvantage of the described stand is the lack of the possibility of using it to install a geodetic mark in the hole of the soil, and even more so centering it in a truly vertical position.

 The main task to which the invention is directed is to ensure its safety in a strictly vertical position for quite a long time (up to several tens of years). This is necessary so that the phase center of the receiving antenna is directed to the zenith and coincides with the axis of the geodetic mark at any time necessary for conducting positional measurements. The ultimate objective of the invention is the accuracy of measuring the distance from satellites of the NAVSTAR type involved in the GPS system to observation points. One of the applied problems solved by the GPS system is positional measurements by deformation of the earth's crust related to tectonic changes occurring in the earth.

 The problem is achieved by the fact that in the geodetic sign, consisting of a cylindrical base with conical grooves and a head, in which the antenna or plug is installed in turn, firstly, an adapter is inserted connecting the base of the geodetic sign and the antenna, and secondly, longitudinally made flat and the groove is spaced on opposite sides and, finally, a blind threaded hole is made in the head, and the adapter at the lower end has a shank located below the threaded girdle. This design of the geodetic mark allows you to quite firmly and for a long time to install it in the ground. In addition, for the installation of such a geodetic mark, a very simple construction device for installation has been proposed. This simplicity is achieved due to the fact that a coaxially mounted tribrach, a spring plate having the shape of a tribrach, and a mounting plate connected by three adjusting screws and having a central hole are fitted with a replaceable working sleeve and an installation rod with a support sleeve at the top and a geodetic sign at the lower end and release elements. The introduction of completely new elements of a rather original design is ensured by the fact that the tribrach is made in the form of a thickened sleeve, in the upper inner part of which shoulders are made for installing the supporting sleeve, and on the external recess, where the adjusting screws are located. An installation rod is located in the central hole of the tribrach, the lower end of which has an external thread for installation in the blind hole of the geodetic mark during installation and fastening of the latter in the soil hole, and the upper end of the rod has a head with a level on the upper platform. The support sleeve with its protrusions rests on the shoulders made in the inside of the tribrach-sleeve, and is placed there with a gap, which makes it possible to move the installation rod with a geodetic sign, providing the latter with a strictly vertical position, verified by a level fixed to the surface of the head mounted on the upper end installation rod. To firmly fix the entire device in the soil along the true vertical, it, as already mentioned, is equipped with three fastening elements placed with a gap in the holes drilled in the places of the mounting plate free from the tribrach. Each of the fastening elements consists of an external sleeve with an eccentric threaded hole, a hexagonal head located above the mounting plate, and a washer located at the bottom of the mounting plate, and an internal sleeve placed in the eccentric screw hole. A rod is installed in the hole of the inner sleeve, fixing the mounting plate in the soil by pressing the lower end of the rod against the walls of the holes pre-drilled in the soil.

 In FIG. 1 shows the design of the proposed device for installing a geodetic mark; in FIG. 2 design of the proposed geodetic mark; in FIG. 3 same side view; in FIG. 4 geodetic mark in working condition; in FIG. 5 the same, top view; in FIG. 6 section AA with an installed working sleeve.

 The proposed geodetic sign consists of a cylindrical base 1 with a number of conical grooves 2. On one side along the base along the cylindrical part with conical grooves, a flat 3 is made, and on the opposite groove 4, to increase the adhesion area with the hardening solution, as well as to exit the solution displaced by the mark when immersed in a hole. The bottom end 5 of the geodetic mark is made conical, and a blind hole 6 with a thread is made in the upper end for mounting the threaded end of the adapter 7 of the antenna 8. The hole is closed with a stainless steel plug 9 with a slot 10 for a screwdriver. To avoid "welding" of parts of the geodetic mark with an adapter 7 and a plug 9, the length of their thread is made minimal. For stability of the adapter 7 in the geodetic sign, the blind hole 6 is made of greater depth to accommodate the shank 11 of the adapter 7.

 Strictly vertical installation of the geodetic mark is provided by a device for installing it in the ground.

A device for installing a geodetic mark consists of a round mounting plate 12, on which recesses for the balls 13 of the thrust bearings 14 of the adjusting screws 15 are spaced apart at an angle of 120 ^° . To fix the thrust bearings 14 on the mounting plate 12, a triangular spring plate 16 is attached with three adjusting screws 15. The rods 17 of the adjusting screws 15 pass through the threaded holes of the tribrach 18. The latter is made in the form of a thickened stepped sleeve having a sample on the outside to accommodate three adjusting screws 15. The bore of the sleeve-tribrach 18 is part of the central hole 19, also formed by a hole in the spring plate 16 and a hole in the mounting plate 12. The Central hole 19 is designed to install removable working sleeves 20, through which drill a hole 21 in the ground under the geodetic sign 22. In the same hole 1 9, after drilling holes 21 in the ground, they place an installation rod 23. A thrust sleeve 24 is put on the threaded rod 23, which, with its outer protrusions 25, rests on the inner shoulders 26 of the sleeve-tribrach 18. Moreover, between the inner side of the sleeve 18 and the outer side of the support sleeve 24 vertically there is a gap 27 for setting the axis of the geodetic sign 22 in a strictly vertical position using the moving screws 28. At the upper end of the mounting rod 23 there is a head 29 with level 30 on the upper platform, and at the lower end there is an external thread ba for installation of a geodetic sign. For drilling holes 21 in the soil along the true vertical, a rigid fastening of the proposed device to the ground is required. To do this, on the free places of the mounting plate 12 (the recess at the tribrach and the spring plate), three holes 31 are made in which the fastening elements are installed. Each of the fastening elements consists of an external sleeve 32 with an eccentric threaded hole, a hexagonal head 33 on top of the plate 12 and a washer 34 mounted on the bottom of the mounting plate 12. The sleeve 32 is placed in the mounting plate 12 with a clearance allowing it to be rotated about its axis. In the eccentric hole of the sleeve 32 there is an internal sleeve 35 with an external thread and a central through hole 36, and a fixing rod 37 is already placed inside the sleeve 35.

The installation of a geodetic mark in the soil is as follows. First of all, choose strong rocks such as granite with a platform on the surface of at least 200 mm with a slope of not more than 10 ^o . The mounting rod 23 is placed in the central hole 19 by installing the protrusions of the support sleeve 24 on the shoulders 26 of the tribrach 18. The horizontal position of the head 29 is controlled, and therefore, the verticals of the central hole 19 are carried out at level 30. Then, the device is installed on the platform in a horizontal position, twisting in the mounting plate 12 bushings 34 resting on the surface of the soil. Through holes 36 of bushings 35, holes 38 are drilled 38 with a diameter of 10 mm and a depth of 10-15 mm, fixing rods 37 are installed and, turning the hexagonal head 33 of sleeve 32 with a wrench, by means of the latter with an eccentric hole, the proposed device is very rigidly fixed on the soil surface. Now they start drilling holes 21 in the ground, for which purpose a mounting rod 23 with a support sleeve 24 is placed in the central hole 19 in the same way as described above, with the help of adjusting screws 15, the tribrach 18 is placed in a horizontal position. Then, the mounting rod 23 with the supporting sleeve 24 is removed, the working sleeve 20 of the required inner diameter is installed, it is fixed on the surface of the tribrach 18 with pressure bolts 39, and a hole 21 is drilled in the ground to accommodate the geodetic sign 22. When drilling the hole 21, the working surfaces of the device must be periodically blown. Unscrewing the clamping bolts 39 and removing the working sleeve 20, clean the hole 21 from dust, inject the required amount of hardening solution 40 into the hole. Then, connecting the geodesic mark 22 with the threaded lower end of the mounting rod 23, pass through the central hole 19, set in tribrach 18, put the geodetic sign 22 in a strictly vertical position at level 29 with the help of adjusting screws 15, fasten with moving screws 28 and keep the solution in this position until the solution solidifies completely a. It is necessary to pay attention to the fact that the hardening solution 40 does not fall on the lower end of the installation rod 23. After the solution 40 has solidified in the hole 21, the installation rod 23 is unscrewed from the geodetic sign 22, having previously unscrewed the moving screws 28, thereby freeing the supporting sleeve 24. Device for installation of the geodetic sign 22, they are removed after turning the hexagonal heads 33 of the sleeve 32 with a wrench until the three locking rods 37 come out of engagement with the ground.

 First of all, it should be noted that today the leading place in the world is given to modern, less capacious in organizational terms and incomparably more accurate geodetic technology of space geodesy. It can be used for cadastral surveying, in topography, for studying the tectonics of the Earth with very high measurement accuracy in comparison with the geodetic technology used in the territory of the former USSR. We took the global GPS navigation system as the basis of space geodesy technology, designed for high-precision location of moving and stationary objects in three-dimensional space. So, today when using the GPS system the standard error of determining the coordinates of the observation points is from 15 to 3 mm. This accuracy is achieved by increasing the accuracy of determining the coordinates of the object, in particular the receiving antenna of the geodetic sign. But to obtain such high accuracy, it is especially necessary to pay attention to the placement of the geodetic mark in the true vertical, since the phase center of the receiving antenna should be directed to the zenith and coincide with the axis of the geodetic mark.

 As can be seen from the above description of the design of the device for installing the geodetic sign, namely, the combination of the originally solved form of the tribrach, the mounting rod with the support sleeve, interchangeable working sleeves for drilling a hole for the geodetic sign, as well as the design of the fastening elements, entailed changes in the design of the geodetic sign and provided high accuracy in conducting geodetic measurements with a simple technology that eliminates the subjective errors of the operator establishing the true value Tikal and fixing pillar by hand until the solidification of the epoxy adhesive.

Claims (2)

 1. A geodetic sign, consisting of a cylindrical base with conical grooves made in the lower part of the base, with longitudinally made flat and groove, and a head at the upper end, in which the antenna is mounted by thread in the working position, and in the inoperative plug, characterized in that it is equipped with an adapter installed in the working position along the thread in the blind hole made in the head, and the adapter at the lower end has a shank located below the threaded girdle, and the flat and groove are spaced apart from false hand.  2. A device for installing a geodetic mark, comprising a tribrach, a spring plate having the shape of a tribrach, a mounting plate connected by three adjusting screws with a thrust bearing, having a common central hole, characterized in that it is provided with a working sleeve and an installation rod that are installed alternately in the central hole, the lower end of which has an external thread, and a stepped support sleeve and a head with a level on the upper platform are screwed onto the upper end, the support sleeve has a T-shape, and fastening elements placed with a gap in the holes made in places free from the tribrach, and consisting of an external sleeve with an eccentric threaded hole, a hexagonal head placed above the mounting plate, and a washer mounted at the bottom of the mounting plate, an internal sleeve placed in an eccentric screw holes and resting on the surface of the soil, and a rod immersed in the soil installed in the inner sleeve, and the tribrach is made in the form of a thickened sleeve, in the upper inner part of which oh performed hanger for setting the reference and working sleeves, and on the outside of the recess, wherein the adjusting screws are arranged.

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