RU92178U1 - DEVICE FOR OPERATIONAL CONTROL FOR SEDIMENTS OF STRUCTURES - Google Patents

Abstract

A device for operational control of the precipitation of the structure, including a hydrostatic float chamber, located inside the float, fixedly fixed at a control point of the foundation of the structure, and on its vertical axis, rigidly connected with the float, movable elements of electrical displacement transducers, for example, inductive type sensors, are placed, and a base vessel located on a non-deformable section of the base, remote from the structure, and connected to a hydrostatic float chamber, and a tube, echivayuschuyu fluid flow from the base of the vessel to the hydrostatic float chamber.

Description

The utility model relates to the field of construction and operation of large energy facilities, for example, reactor departments of nuclear power plants (NPPs) and foundations of turbine units (TA), namely, for operational control (in automatic mode) of precipitation of foundations of structures located on deformable soils.

A known level gauge consisting of a pipe in which the measuring pipe is concentrically located, and below it is an auxiliary pipe containing liquid and due to the pressure drop, the liquid moves in the transmission pressure pipe in communication with the measuring pipe, while the level in it changes, in the same the pipe is a magnetic float, the magnetic field of which acts on the sensor located on the measuring tube (patent GDR No. 250574, MKI G01F 23/18, publ. 14.10.87).

The disadvantage of the analogue is that the level gauge allows you to monitor only changes in the liquid level at a local point. If it is necessary to determine the relative displacement at several points, then complex operations are required to coordinate the mutual position of the level gauges. In this case, errors of the initial installation are not excluded.

A device for hydrostatic leveling is known, consisting of two hydrostatic float chambers (communicating vessels), used to determine the altitude of individual points of a structure (TSB, third ed., Vol. 17, 1974, S.557).

According to the number of similar features and the achieved result, this technical solution is selected as a prototype of the claimed utility model.

The disadvantage of the prototype is that the use of such devices (in the form of hydrostatic levels) for monitoring precipitation (movements) at many points in the structure is associated with great difficulties, which largely depends on the stability of their foundations, the height of which must be constantly monitored, especially if deformable soils lie at the base of the structure.

The technical task of the proposed utility model is the operational control of precipitation of the foundations of structures located on deformable soils.

This problem is solved by the fact that in the device for operational control of the precipitation of the structure, including a hydrostatic float chamber, located inside the float, fixedly fixed at a control point of the foundation of the structure, on its vertical axis rigidly connected with the float are moving elements of electrical displacement transducers, for example , inductive type sensors, and a base vessel located on a non-deformable section of the base, remote from the structure, and connected to a hydrostatic float oic chamber, and a tube providing fluid flow from the base of the vessel to the hydrostatic float chamber.

Distinctive features of the proposed utility model are: fixed fastening of the hydrostatic float chamber with a float at a control point of the foundation of the structure, placement of movable elements of electrical displacement transducers on vertical axes, rigidly connected with the floats, placement of the base vessel on the undeformable section of the base of the structure, and the presence of a tube providing fluid flow from the base vessel to the hydrostatic float chamber.

Due to these features, the physical principles that are used in the proposed device eliminate the disadvantage of the prototype and as a result make it possible to implement the initial concept of converting the amount of precipitation into an electrical signal supplied to the remote control.

The drawing schematically shows a device for operational control of precipitation of the structure.

A device for operational control of the precipitation of a structure comprises a structure 1, the vertical draft (movement) of which must be controlled, a bracket 2 fixed at the control point of the structure 1, a hydrostatic float chamber 3 with a float 4, a tube 5, which provides the flow of liquid from the base vessel 6 into the hydrostatic float chamber 3. The base vessel 6 is located on the undeformable section of the base remote from the structure 1. To ensure a given mode of control and registration of operational results The control device of the invention comprises an electric displacement transducer 7, a switch 8 of an electric displacement transducer 7, a digital tensometric bridge 9, and a computer 10.

A device for operational control of precipitation of the structure works as follows.

When the vertical draft is downward (moving) of the structure 1, the bracket 2 fastened at a controlled point also moves along with the hydrostatic float chamber 3. However, the liquid level in this chamber 3 does not change during the settlement of the structure 1, since the hydrostatic float chamber 3 communicates using a tube 5 with a base vessel 6 located separately on the non-deformable section of the base and filled with liquid. Moreover, the liquid level is constantly maintained, for example, by a float batcher, at a predetermined mark.

As a result, during the settlement of building 1, there is a mutual displacement of the float 4 located on the axis and the movable (ferromagnetic) element of the electric displacement transducer 7 (sensor), the electric signal of which is selectively sent through the switch 8 to the digital strain gauge bridge 9 and, after numerical conversion according to the program embedded in the computer 10, the linear displacements of the control points of the structure are determined and recorded using the computer 10 in graphical or tabular form.

Thus, the proposed device solves the problem of operational monitoring of precipitation of the foundations of structures located on deformable soils.

Claims (1)

A device for operational control of the precipitation of the structure, including a hydrostatic float chamber, located inside the float, fixedly fixed at a control point of the foundation of the structure, and on its vertical axis, rigidly connected with the float, movable elements of electrical displacement transducers, for example, inductive type sensors, are placed, and a base vessel located on a non-deformable section of the base, remote from the structure, and connected to a hydrostatic float chamber, and a tube, echivayuschuyu fluid flow from the base of the vessel to the hydrostatic float chamber.