RU143345U1 - STAND FOR STATIC TESTS OF REINFORCED CONCRETE ELEMENTS FOR LONGITUDINAL EXCENTRAL AND SLIDING EXCENTRAL COMPRESSION - Google Patents

Abstract

1. A stand for static testing of reinforced concrete elements for longitudinal eccentric and oblique eccentric compression, containing a frame mounted on support racks, supports for horizontal placement of a reinforced concrete element, mounted on the frame, stops in the form of shelves mounted on the frame from both ends of the reinforced concrete element, in the first of which abuts the end face of the reinforced concrete element, a hydraulic jack that abuts the other end face of the reinforced concrete element, and measuring instruments, characterized in that the stand is equipped with a set of metal plates located under the body of the hydraulic jack and between the body of the hydraulic jack and the walls of the frame made, for example, of channels, and the hydraulic jack is located between the second stop and the end of the reinforced concrete element with the possibility of displacement in the horizontal and vertical direction by changing the location of the metal plates while the hydraulic jack abuts against the end of the reinforced concrete element through a hemispherical metal nozzle, in addition, The first stop is made in the form of a vertical shelf with a matrix of hemispherical grooves and mounted on the frame with the possibility of horizontal movement along the longitudinal axis of the reinforced concrete element with subsequent fixing, and the step between the grooves of the matrix is equal to the thickness of the metal plates, and the end face of the reinforced concrete element abuts the hemispherical groove of the matrix by means of a metal ball .2. A bench for static testing of reinforced concrete elements according to claim 1, characterized in that the shelves of the corners that are mounted on the frame with

Description

The utility model relates to testing equipment, and more specifically to stands for providing static tests of reinforced concrete elements for longitudinal eccentric and oblique eccentric compression.

An analogue of the claimed device is a device for creating a stress-strain state of eccentrically-reinforced concrete elements (Tests of reinforced concrete structures: Textbook. Manual. - Krasnoyarsk: KrasGASA, 2000. - 133 p. - 92 s). This device for creating a stress-strain state of eccentrically-reinforced concrete elements contains support racks and a frame on which the tested reinforced concrete element is vertically mounted, one side of which is adjacent to the first stop fixed to the frame, and on the other side of which a jack is mounted fixed on the second stop, fixed on the frame.

This device allows static testing of reinforced concrete elements for longitudinal eccentric compression. However, the design of the stand does not allow for static testing of reinforced concrete elements for longitudinal oblique eccentric compression.

The prototype of the claimed utility model is a bench for testing a reinforced concrete element for eccentric compression (Plevkov BC, Malganov A.I., Baldin I.V. Laboratory work on the course "Reinforced concrete and stone structures": Textbook. Edited by BC Plevkov. - M .: DIA Publishing House, 2008. - 189 p. - 33 s). The stand contains a frame mounted on the supporting racks. On the frame are fixed supports for horizontal placement of a reinforced concrete element. From both ends of the reinforced concrete element, stops in the form of shelves are horizontally fixed. On one side of the reinforced concrete element, a hydraulic jack is mounted on the stop, abutting against the end face of the reinforced concrete element. On the opposite side of the reinforced concrete element, its end abuts against the second stop. During the test, measuring instruments are used: the longitudinal force generated by the jack is controlled by a pressure gauge, the displacement is measured by an indicator, and the strain is measured by a tensometer. The prototype bench allows you to examine reinforced concrete elements for strength and crack resistance with eccentric compression at a predetermined eccentricity relative to the center of gravity of the reinforced concrete element in the vertical direction. However, the design of this stand does not allow testing reinforced concrete elements for longitudinal oblique eccentric compression with a predetermined eccentricity of the load application relative to the center of gravity of the tested reinforced concrete element in the horizontal and vertical directions.

The objective of the utility model is to expand the functionality of the bench according to the prototype by providing the possibility of conducting static tests of reinforced concrete elements for longitudinal eccentric and oblique eccentric compression.

The technical result consists in obtaining a stress-strain state of reinforced concrete elements with longitudinal eccentric and oblique eccentric static compression.

The technical result and the solution of the problem are achieved as follows. The inventive stand, as well as the prototype, contains a frame mounted on supporting racks and supports for horizontal placement of the tested reinforced concrete element, mounted on the frame. It contains stops in the form of shelves mounted on the frame from both ends of the reinforced concrete element and a hydraulic jack. As in the prototype, the first of the stops abuts against one end of the reinforced concrete element, and the hydraulic jack abuts against the second end of the reinforced concrete element. To register the results, the stand is equipped with a set of measuring instruments.

Unlike the prototype, according to the utility model, the stand is equipped with a set of metal plates located under the body of the hydraulic jack and between the body of the hydraulic jack and the walls of the frame made, for example, of channels. Moreover, the hydraulic jack is located between the second stop and the end of the reinforced concrete element with the possibility of displacement in the horizontal and vertical direction by changing the location of the metal plates. The hydraulic jack abuts against the end of the reinforced concrete element through a hemispherical metal nozzle. The difference is also that from the end of the reinforced concrete element opposite the hydraulic jack, the emphasis (first emphasis) is made in the form of a vertical shelf with a matrix of hemispherical grooves and mounted on the frame with the possibility of horizontal movement along the longitudinal axis of the reinforced concrete element with subsequent fixation. The step between the grooves of the matrix is equal to the thickness of the metal plates, and the end face of the reinforced concrete element abuts against the hemispherical groove of the matrix by means of a metal ball.

The stops can be shelves of corners, which are mounted on the frame from both ends of the reinforced concrete element. A hemispherical matrix is located on one of the shelves of the corner.

The essential features characterizing the claimed utility model, in the indicated combination, were not found in known sources of information, which confirms the novelty of the utility model.

The proposed stand design allows to obtain a stress-strain state as a result of a static test of a reinforced concrete element for longitudinal eccentric and oblique eccentric compression with complete destruction of the structure.

The utility model is illustrated by drawings. In FIG. 1 shows the design of the inventive stand for static testing of reinforced concrete elements for longitudinal eccentric and oblique eccentric compression. In FIG. 2 is a view A-A of FIG. 1, which shows a reinforced concrete element supported through a metal ball on the first stop on one side, and on the other, through a hemispherical metal nozzle, on a hydraulic jack abutting the second end against the second stop.

In FIG. 3 shows a section 1-1 of FIG. 2, which shows a matrix of hemispherical grooves of the first stop.

The design of the stand consists of a frame 2 mounted on the support posts 1, on which there are supports 3 for horizontal placement of the reinforced concrete element 4, stops 6, 8 in the form of corner shelves mounted on the frame from both ends of the reinforced concrete element, the first emphasis 6, which is the vertical the corner shelf, made with a matrix of hemispherical grooves 9 (Fig. 3), abuts against one end of the reinforced concrete element by means of a metal ball 5, and the second stop 8 abuts against the body of the hydraulic jack 7, which, in turn, pyran in the other end through the concrete element hemispherical metal nozzle 12 mounted on the piston 11 of the jack 7. The stand is provided with a set of metal plates 10 disposed under the body of a hydraulic jack and a hydraulic jack between the housing 9 and the walls of the frame 2. The stand is completed by a standard set of measuring instruments.

The utility model is industrially applicable, it can be repeatedly implemented with the achievement of the specified technical result.

The operation of the device is as follows. The test reinforced concrete element 4 is mounted on supports 3 located on a frame 2 fixed between two support posts 1. One side of the test concrete element is supported through the metal ball 5 on the first stop 6 in the groove of the matrix 9. The other side of the test concrete element is supported through the metal nozzle 12 in the form of a hemisphere on the jack 7, mounted on the second stop 8, mounted on the frame 2. The static load on the tested reinforced concrete element is transmitted by the hydraulic jack 7. The position of the point of application of the load relative to the center of gravity of the cross section of the reinforced concrete element in the horizontal and vertical directions in accordance with the specified eccentricity of the load on the tested reinforced concrete element is regulated: at the first stop by moving the metal ball within the grooves of the matrix and installing it in the groove corresponding to the given eccentricity, and on the second stop - moving the jack by means of interchangeable metal plates. Tests are carried out until complete destruction. To install a metal ball 5, the groove of the matrix 9 emphasis 6 is moved along the frame 2, freeing the end face of the reinforced concrete element. The metal ball 5 is installed in the groove and the emphasis 6 is shifted to the end of the reinforced concrete element and fixed on the frame 2. To record the test results, a standard set of measuring instruments connected to a computer measuring system is used. The implementation of one of the stops in the form of a matrix of hemispherical grooves and the ability to change the point of application of the load from the jack, changing the location of the interchangeable plates, will allow varying in a wide range of testing the reinforced concrete element for longitudinal eccentric and oblique eccentric compression.

Claims (2)

1. A stand for static testing of reinforced concrete elements for longitudinal eccentric and oblique eccentric compression, containing a frame mounted on support racks, supports for horizontal placement of a reinforced concrete element, mounted on the frame, stops in the form of shelves mounted on the frame from both ends of the reinforced concrete element, in the first of which abuts the end face of the reinforced concrete element, a hydraulic jack that abuts the other end face of the reinforced concrete element, and measuring instruments, characterized in that the stand is equipped with a set of metal plates located under the body of the hydraulic jack and between the body of the hydraulic jack and the walls of the frame made, for example, of channels, and the hydraulic jack is located between the second stop and the end of the reinforced concrete element with the possibility of displacement in the horizontal and vertical direction by changing the location of the metal plates while the hydraulic jack abuts against the end of the reinforced concrete element through a hemispherical metal nozzle, in addition, The first stop is made in the form of a vertical shelf with a matrix of hemispherical grooves and mounted on the frame with the possibility of horizontal movement along the longitudinal axis of the reinforced concrete element with subsequent fixing, and the step between the grooves of the matrix is equal to the thickness of the metal plates, and the end face of the reinforced concrete element abuts the hemispherical groove of the matrix by means of a metal ball . 2. A bench for static testing of reinforced concrete elements according to claim 1, characterized in that the corners are the stops of the corners, which are mounted on the frame from both ends of the reinforced concrete element.