CS217708B1 - Device for measuring deformation of materials and building structures during and after static load - Google Patents

Abstract

The invention relates to a device for measuring horizontal and vertical building structures and materials during and after static loading. The essence of the invention is a device consisting of a measuring cross, in the frames of which there are handles for dial indicators with the possibility of locking the handles and dial indicators in any measurement position, in the middle of the rod guide, which has in the lower part a measuring body acting on the test material or building structure and in the upper part a base plate for load plates with the possibility of setting a certain load. The measuring cross is mounted circumferentially in the frame on supports with rectification and locking of the plane of the device. The purpose of using the invention is to determine the effect of static stress on building structures and materials

Description

The present invention relates to a device for measuring horizontal and vertical building structures and materials under and after static loading.

For example, wooden floors on insulating mats exhibit some deformation under and after static loading. Testing in the device allows to model the effect of static load under practical conditions with the possibility to determine the deformation of the floor during loading and after loading. Furthermore, it allows to determine the suitability of the flooring system, or the unsuitability of any component of the system.

So far, there is no known device that would enable static loading and measurement at and after static loading at any point of the x and y axes for surface formations of practical size.

The above drawbacks are eliminated by a device for measuring the deformation of materials and building structures under or after static stress. Static stress is used up to 50 MPa and can be increased by increasing the weight of the weight or reducing the surface of the measuring body. Measurements are made for sheet formations of, for example, 1200 x 1200 mm at any point in the x and y axis of the test building material - structure (member). The essence of the device according to the invention consists in that it consists of a measuring cross, fixed circumferentially in the frame on supports with rectification and locking of the plane of the device. There are clamps for dial gauges in the measuring cross frames with the possibility of catching of gauges and dial gauges in any measuring position. In the middle of the measuring cross is a hole for guiding the rod, which has in the lower part a measuring body acting on the test material or building structure and in the upper part the base plate for the load plates with the possibility to set a certain load.

The attached drawing schematically depicts a laboratory device for measuring the deformation of materials and building structures (components) under and after static stress.

For the laboratory monitoring of deformation of building structures (components) and materials, a specific cross 1 was designed, which is circumferentially mounted in a square frame 2, on which the supports 3 are placed in a triangle. In the square frame 2 of the measuring cross 1 (x, y axes) there are displaceable clamps 4 for the dial indicators, for example 10 pieces per axis. In the middle of the measuring cross 1 there is an opening with tubular guidance of the rod 5 inside the tube, on which is attached at the bottom part a measuring body 6 acting on the test building structure 7. The upper part of the rod ends with a base plate 8 for loading plates 9 and dial indicator.

Measuring body 6 (diameter 50.5 mm), ie area 20 cm ² . The material is steel HV 10 = - 705 + 25, the edge is cut with a radius of 0.15 mm and the bearing surface is polished. The base plate 8 is flush with the measuring body 6, the rod 5 and the base plate 8 has a load of 0.04 MPa. By placing one, two or five load plates 9, the load is increased to 0.2, 0.5 and 1.0 MPa. The load can be further increased either by increasing the weight of the weight, or by reducing the surface of the measuring body 6.

The measurement procedure is to place a test building structure 7, for example a 1100 x 1100 mm wooden floor, on a flat rigid substrate. It is placed from above on the base plate of the deformation measuring device and the flatness of the device is adjusted by means of three supports 3, which form rectifying screws with locking. Then the sliding tabs 4 are inserted at a specific distance from the load center into which the dial gauges are inserted and the zero gauge of all dial gauges (including the center gauge) is set to zero. The stability of the clamps and dial gauges is ensured by locking. A nominal load of 0.04 MPa is then performed and after 8 hours the nominal deformation of the structure is read from the gauges. Thereafter, the load is increased to 0.2 MPa, 0.5 MPa and 1.0 MPa and after 24 hours the strain gauges are read at a certain load in the individual measuring positions. Finally, the unloading is performed to the nominal load, ie 0.04 MPa, and after 24 hours the residual (permanent) deformation of the floor is measured by means of dial indicators.

The measurement is performed before, during and after static load of the test building structure and the total and permanent - residual deformation of the structure is determined.

Claims (1)

Apparatus for measuring the deformation of materials and building structures under and after static loading, characterized in that it consists of a measuring cross (1) mounted circumferentially in the frame (2) on supports (3) with rectification and arresting of the plane of the device, (2) crosshairs (1) are clips (4) for BACKGROUND OF THE INVENTION a dial gauge (5) having a measuring body (6) at the bottom, a test material or a building structure (7j) and a base plate (8) at the top for the load plates (9) ).