SU1364879A2 - Plan base - Google Patents

Abstract

The invention relates to a measurement technique, in particular, to devices for securing planned geodetic networks. Invar radial wires attached by ends to the central 4 and to the planned 5 reference signs are placed in the cases filled with liquid. The change in the inclination of the invar wires when the reinforced concrete structure 1 is tilted is determined using float gauges mounted on the ends of each wire. The return of the alignment wires to their original horizontal position is carried out by adjusting screws 9, the axes of which are located in vertical planes. The use of a planned base ensures the stability of the coordinates of points during deformations of structures and slopes of structures and improves the accuracy of creating center networks on the assembly horizons. 3 il. (L oo o: 00: D go

Description

The invention relates to a measurement technique, in particular, to devices for securing planned geodetic networks, and is an improvement of the device according to the author. St. No. P85086.

The purpose of the invention is to increase accuracy by reducing the influence of errors due to changes in the inclination angle of invar wires.

Figure 1 shows the proposed device, a General view; figure 2 - section aa in figure 1; on fig.Z - node

fastened with gears 23 and 24 and vra1tsayup1 1khs on racks 25, the second KOHiu i of which are rigidly fastened to the bottom of the cup 26 aluminum rod 27, pivotally fastened to the lever 21, and the other end attached rigidly to the glass 7. On the body tension there is a bracket 28 with a guide bushing 15 in which the rod displaces the rod 29 fastened to the liquid level meter 30, and an adjustment screw 9 for the vertical movement of the tensioner when screwing

I in Fig.2.15 of the wire in the horizontal direction The sign includes the installation. in the thickness of the reinforced concrete structure 1, for example, in the foundation or slab, in steel cases 2 Steel 20 is connected to the end of the spring 22 by an invar rod 31. Gears 23 and 24 have the same characteristics

liquid-filled pipes, 20-gauges with an average gear 32. Rod radial wires 3, 16 sleeves with a coupling 29, swivel arms-fixed at one end with a central reference mark 4, and the other ends

gami 17 and the sensor 18 when monitoring the baseline direction can be deployed around the flange 13 micrometres

attached to the scheduled reference

17 and with the sensor 18, when monitoring the base direction, they can be turned around the flange 13 micrometres

marks 5, which are held in a perforated screw (not shown) Second

tensioning with self-adjusting spring tensioners 6, secured by the other end with cup 7, having a vertical slot for adjusting the guide rod of the tensioner 8 while the wire is leveling, carried out by an adjusting screw 9 fitted with hermetic closures 10.

The central reference mark 4 consists of a hollow steel pipe 11 with a flange 12 on which a rotating coupling 1 3 is fitted, having four adjustment screws 14 for aligning

central reference mark 4 with fun- 40 of the same temperature regime, manual depth planned re-damping, the use of

a rum (not shown) To the coupling 15, radially invar wires 3 are fastened, under which there are invar rods 16 rigidly fastened to the coupling. On the rods x 16 on the same circle from the center I of the reference mark, the pivoting levers are mounted 17. The small lever arm 17 is fastened with wire, and

Large - with angle meter 50 An additional expansion tank is installed. A casing tube 36 is installed at the top of the gland to block the oil intake.

collars of invar wires made in the form of inductive sensors 18 or dial gauges.

The reference planning mark 5 is supported on sliding ball bearings 19, 55 in the annular space.

height-adjustable, and holds-. After concreting, high-precision microtriation measurements are performed and coordinates are calculated.

with a constant tension, a self-adjusting tensioner consisting of a dynamometer 20, levers 21 and 22, and fixed reference signs. Before measuring

a lie.

The dynamometer 20 is connected to the end of the rrr 22 of the invar rod 31. The gears 23 and 24 have the same characteristics.

Ristiki with an average gear 32. The rod 16 or with the coupling 29, rotary levers

gami 17 and the sensor 18 when monitoring the baseline direction can be deployed around the flange 13 micrometres

0

five

The end of the basic radial wire has horizontal adjustment screws 33 for mounting it in alignment with the initial direction to the external planar mark. Sensors 18 and Measuring Unit Designed to determine the tangential rotation of invar wires. The lever is inserted to measure the accuracy of the angular spread with a shoulder ratio of 1: 7. The small lever arm is attached to the wire, and the large one is attached to the sensor.

To protect the system from mechanical damage, ensuring

liquid as a horizontal plane when measuring the angles of inclination of the structure and leveling the wire, as well as protection against corrosion, the steel shells 2 form with the glasses 7 an airtight vessel filled with mineral oil 35 to maintain a predetermined level

planned reference marks. Before measuring

The setting of the base direction in the alignment on the external plane is controlled by rhenium, and all wires are placed in the horizontal plane.

The device works as follows.

The planning basis is adjusted so that at the time of the measurements the forces of the residents are the same, the readings of the measuring unit on each sensor are zero, the basic direction

ten

its inclination with uneven precipitation of the base, allowing for centering operations and monitoring the installation of structures in the design position in the selected system

ordinat,

The use of the invention ensures the stability of the coordinates of points for all types of structural deformations and slopes of structures, increases the accuracy of creating center networks on installation horizons and controls the installation of structures, and tends to set the external plan mark in the alignment, readings of 15 nolometer equipment in the design liquid level must be the same position in the selected system.

When the reinforced concrete slab is tilted due to the uneven sediment of the base, the invar pro-20 fiber is inclined to the horizontal plane of the system of rectangular coordinates, which is determined by means of gauges 30 relative to the level of the liquid 35,

coordinates.

Claims (1)

Invention Formula The plan is based on avtovs, no. P85086, characterized in that, in order to increase accuracy by reducing the influence of errors. Then, by vertical adjustment 25 due to angular variations, the wires are returned to the first invar wires, it is provided with an initial horizontal position, with float gauges placed in closed and complex structures according to the internal layout At the ends of each wire connected to the planned reference points, a stable planned foundation has been created, free from the influence of various deformations of the structure and training, and adjusting screws, whose axes are located in sheer planes. 30 7 0 rj re   l) 28 P 11 16 17 pollutants its inclination with uneven precipitation of the base, allowing for centering operations and monitoring the installation of structures in the design position in the selected system ordinat, The use of the invention allows to ensure the stability of the coordinates of points for all types of deformations of structures and slopes of structures, increasing the accuracy of creating center networks on installation horizons and controlling the installation of structures and technological equipment to the design position in the selected system. equipment in the design position in the selected system coordinates. Invention Formula The plan is based on avtovs, no. P85086, characterized in that, in order to increase accuracy by reducing the influence of errors. Due to the change in the angles of inclination of the invar wires, it is equipped with float gauges placed at the ends of each of the wires associated with the planned reference signs, and adjustment screws, the axes of which are located in steep planes. 01 / - g-1 yyyy2: - - - Z6 y - - - 25 g 21 Fig.z