SU1021991A1 - Device for fatigue-testing of flexible specimens under bend with extension - Google Patents

Description

The invention relates to a testing technique, namely, devices for testing the fatigue of a specimen under bending with stretching. A device for testing flexible specimens for fatigue during bending with a stretch is known, comprising a crank exciter, a rod connected to it, used to bend the specimen, a template for defining the specimen bending pattern, a mechanism for creating a tensile load and anchors for fastening there is a sample in them, one of which is connected to the mechanism for creating a tensile load 1. A disadvantage of this device is the inability to imitate the operating conditions of the track belts and conveyors, when the sample slips along the pattern during deformation. The closest in technical essence to the invention is a device for testing flexible flexural fatigue specimens containing a base, a crank oscillator, grips for fastening a specimen into them, a rod connected to the oscillation pathogen and one of the grips, template p , set the shape of the bend and the stretching mechanism associated with another gripper. The stretching mechanism is made in the form of a cam interacting with a spring and kinematically connected with a crank oscillator exciter, and the gripper associated with the exciter is installed in the evolvent profile guide 23. A disadvantage of this device is (design complexity) It also includes means for synchronizing tensile and bending loads. Purpose of the invention —simplification of the design. The goal is achieved by the fact that in the device for testing bending specimens for bending fatigue with stretch base, crankshaft exciter, grippers for fastening a sample in them, a rod connected to the oscillation pathogen and one of the grippers, a template for defining the shape of a bend, and an extension mechanism associated with another gripper, associated with the rod gripping pivotally connected With the base, and the connection of this grip with the rod is carried out by means of a hinge. Thus, in the described machine, the tensile and flexural drives of the sample are combined into one, which significantly simplifies the design, and, in addition, such Does not require special adjustment of the machine for the simultaneous application of tensile and bending loads. The drawing shows the proposed device. The device comprises a base 1, a crank exciter 2 oscillations, grips 3 and 4 for mounting sample 5 in them, a stem b, one end of which is connected to the exciter 2 exciter, and the other by means of a hinge THRUG 4 and a fixed pattern 8 for setting the bend sample. The gripper 3 is connected to the spring 9, which sets the tensile load, and the gripper 4 is pivotally connected to the base 1. The spring 9 is provided with means 10 for preloading it. The device works as follows. Crank exciter 2 oscillations causes the reciprocating movement of the rod b, and the hinge rod 7 connected with it moves the gripper 4 along an arc of a circle with a radius equal to the gripping length 4. At the same time, sample 5 slides along the fixed template 8, bends and stretches. . The tensile force is determined by the characteristics of the spring 9 and the magnitude of its preload. The proposed design has a simpler design and allows testing flexible specimens under conditions: close to the operating conditions of the track belts and conveyor belts, without first setting the machine to synchronize the application of flexural and tensile loads.

Claims (1)

DEVICE FOR TEST _; FLEXIBLE SAMPLES TO .FATIGUE AT, BEND with TENSION, Containing 'base, crank exciter, grips for attaching the sample to them, a rod connected to the exciter and one of the grips, a template' for defining the shape of the bend and a tensile mechanism associated with another grip, about t and h What is more, in order to simplify the design, (the grip connected with the rod is pivotally connected to the base, and the coupling of this gripper with the rod is carried out by means of an articulated rod. (U) “i