SU1059464A1 - Method and rigid device for testing span plates for strength - Google Patents

Abstract

1. The method of testing floor slabs for strength and rigidity, including the installation of supports along the contour of the plate, the installation of the plate on the supports, loading of the span of the plate and measuring the deformations in it, which means that / in order to improve accuracy, before loading the flying part is made to evenly distribute the loaded areas of the plate nra, which are enclosed between the external contour of the plate and the contour that coincides with the projection of the internal contour of the supports. (L cd 4 O)

Description

2. The method according to claim 1, characterized by the teM | that the supports along the contour of the slab are installed unevenly.

3. Method according to paragraphs. 1 and 2, which is based on the fact that the loading of each part at the edges of the plate is carried out with different specific loads.

4. Device for testing floor slabs for strength and rigidity, including the base, supports, installed on the contour of the plate, device for loading the span of the plate and measuring devices

The difference is that it is equipped with a device for loading the edges of the plate in the form of a hydrojet with dies installed along the contour of the plate and getting used to each other, and the width of the dies is equal to the width of the supports installed under them.

5. The device according to claim 4, characterized in that the supports are high, polyenes with a flat surface, interacting with the plate, and a length equal to the length of the stamp installed over them.

one

The invention relates to the construction, in particular to the testing of building structures.

A known method of testing plates for strength and rigidity / including the loading of the span of the plate and the measurement of deformations in it. It is also known a device for carrying out this method, including supports, load and measuring device ij. However, the known methods and apparatus for its implementation do not ensure that the plates are tested when they are supported and loaded along the contour before loading the span, which reduces the accuracy of the research, since in real conditions the plates are edge-mounted on the walls and can withstand the load from edge of the building walls.

Closest to the present invention is a method for testing floor slabs for strength and rigidity, including mounting the supports along the contour of the plate, installing the plate on the supports, loading the span of the plate and measuring the deformations in it. It is also known a device for carrying out this method, which includes a base, supports mounted along the contour of the plate, a device for loading the span of the plate and 3Mpatient attachments EZ.

The disadvantage of these methods and devices is their low accuracy due to the fact that they do not provide for testing the plates when they are loaded along the contour before loading the span.

The purpose of the invention is to increase accuracy,

This goal is achieved by the fact that, according to the test method

Floor slabs for strength and rigidity, including mounting the supports along the contour of the slab, mounting the slab to the supports, loading the span of the slab and measuring the deformations in it, before loading the span, the uniformly distributed loading of individual portions of the plate edges enclosed between the outer contour of the slab and the contour is made coinciding with the projection of the internal contour of the

In this case, the supports along the contour of the pit are installed unevenly.

The loading of the kykgyd area along the edges of the slabs is carried out with various specific loads.

In addition, a device for testing floor slabs for strength and rigidity, including the base, supports, installed along the plate CURRENT, a device for - loading the span of the plate and measuring. devices, equipped with a device for loading the edges of the plate in the form of hydraulic jacks with punches, installed along the contour of the plate and facing each other, and the width of the punches is equal to the width of the supports installed under them.

In this case, the supports are made with a flat surface interacting with Llita, - and a length equal to the length of the stamp installed above them.

FIG. 1 shows an apparatus for testing floor slabs, general in FIG. 2 is the same, top view f in FIG. 3 - hydraulic device for loading the edges of the plate.

The device for testing floor slabs contains the contour-mounted FIG. 2 shows a dash-dotted line) on the base 1 - support frame (Fig. 1 and 3). the test piece overlap 2, the fixture, loading the slab 2 in its span part (in Fig. 3 it is conditionally shown being loaded by the 1st device with distributed load (and the fixture itself is not shown in the drawing), and the fixtures for measuring displacements and I deformations (not shown In addition, the stand is equipped with a device for loading the edges of the plate in the form of hydraulic jacks 3, affecting the distribution dies 4 on the test plate 2 in the direction of the base 1, the hydraulic jacks 3 are fixed on the longitudinal 5 and Transfer Hfcjx 6 traverses connected by poles 7 to support frame 1. Between base 1 and the test plate 2, along contour A of the latter, supports are installed in the form of 8 dimensional length segments and a solution is laid 9. Between the pins 4 of hydraulic jacks 3. and the test plate 2, contour A is the last solution of solution 10 and a plate is installed consisting of segments 11 of dimensional length. Solutions 9 and 10 are leveling layers. Stamps 4 are also made in the form of segments corresponding to segments 11. Contour A can be as closed fig. 2j, if plate 2 is supported or loaded along the entire contour, or open (Fig. 3), if plate 2 rests on the part of the contour, for example, on two opposite sides. Hydraulic jacks 3 supply the working fluid by means of a hydraulic distribution L 12 (Fig. 3). The force of the jacks 3 is adjusted by adjusting the spring of the safety valve 13. Traverse b is connected to the crossheads by means of hinges 14 and bolts 15, and crosshead 5 is connected to the supporting frame 1 by means of hinges 16 (Fig. 1, which allows the plate 2 to be freely mounted on the supporting the frame, the deviation of the traverse to the sides. The device works as follows: After installing the plate 2 on the plate S through the solution 9, located along the contour A, with the help of the hydraulic distributor 12, the pressure is applied to the hydraulic jacks 3, also located along the contour A. naked Plate 2 along the contour A in the direction of the support frame 1 and simulate the real loads acting on the plate Shut off the contour due to the weight of the higher floors. By adjusting the safety valve 13 to the corresponding pressure, you can vary; the force of the jacks 3 and simulate the loads acting on the slab, on different floors (| On) and on the upper floors, the load along the contour of the slab from the higher floors is painful than on the higher floors, since the higher the floor, the less floors are above the slab and, consequently, their weight and mustache are less or, perceived by the plate along the contour). After that, the slab 2 in the span is loaded with the load g (Fig. 3) and the displacements and deformations that occur in the slab are measured in the usual manner. To determine the effect of the unevenness of the plate 2 bearing on its rigidity and strength, some of the 8 leg supports, installed along the contour A, are removed. When etsm on contour section A, where segment B is removed, the plate has no support, which corresponds to the model of uneven support. Removing contour A from different segments 8, it is possible to simulate {) different conditions of supporting the slab and determine its rigidity -. in the sequence described above. In order to determine the effect of the non-uniformity of the contour loading of the plate by the relevant eteiki kg1 of hydraulic jacks 3, the valve is adjusted using the safety valve 13 (Fig. 3), and due to the fact that a plate consisting of individual sections 11 is installed between the plate 2 and hydraulic jacks 3 It is possible to transfer various forces to different parts of circuit A and, thus, real conditions of uneven loading of the slabs of the slab along the contour with higher efficiencies, thereby simulating. They performed the operations in the sequence described above. The method of testing floor slabs for strength and rigidity is carried out in the following sequence of operations: The supports in the form of segments 8 are installed along the contour of the plate 2, the plate 2 is installed on supports in the form of cuttings 8, and the load is evenly distributed the areas of the plate edge enclosed between the outer contour of the plate and the contour coinciding with the projection of the internal contour of the supports load the span of the plate and measure its deformations. In the implementation of the method of support along the contour of the plate can be installed unevenly, and the loading of each section along the edges of the plate is carried out with different specific loads. The use of the proposed invention allows to simulate the load, the action on the slabs along the contour due to the weight of the building’s lower floors. In addition, the stand features are expanded, as it becomes possible to study the effect of the unevenness of the bearing and contour loading on the rigidity of the slab.

Claims (5)

1. A method of testing floor slabs for strength and rigidity, including installing supports along the contour of the plate, installing the plate on the supports, loading the span of the plate and measuring deformations in it, characterized in that, in order to improve accuracy, before loading the span uniformly distributed loading of individual sections of the edge of the plate, enclosed between the outer contour of the plate and the contour matching the projection of the inner contour of the supports. SU 1059464 A 2. The method according to π. 1, characterized in that the supports along the contour of the plate are installed unevenly. 3. The method according to PP. 1 and 2, which includes the fact that loading ’of each section along the edges of the plate is carried out with different specific loads. 4. A device for testing slabs for strength and stiffness, including a base, supports installed along the slab contour, a device for loading the span of the slab, and measuring devices, characterized in that it is equipped with a device for loading the edges of the slab in the form of a hydraulic jack with dies, installed along the contour of the plate and touching each other, and the width of the dies is equal to the width of the supports installed under them. 5 .. device pop. 4, characterized in that the supports are made with a flat surface that interacts with the plate, and a length equal to the length of the stamp installed above them. -