SU953518A1 - Stand for testing springs for fatigue - Google Patents

Description

one

The invention relates to a test technique, namely to test benches for dp tests for fatigue.

A stand for testing fatigue springs is known, containing a frame with movable and non-mounted spreader mounted on it, mounted on the cross-arms. Support for placing the test spring carrier, a loading mechanism associated with the movable cross-head, and Q Measurement and control equipment 1 .

The disadvantage of this stand is the high power consumption of the drive of the loading mechanism, since the deformed, 5 spring of the spring is carried out only by the drive energy.

The closest to the technical essence of the invention is a bench for fatigue spring testing, containing a power frame with a rocker installed in it, a rivet-rod drive for swinging the rocker arms, supports for the test springs, one pair of which is placed along the edges of the rocker arm and a friend, on the basis of the power paiva.i and the static Harpjoiceraffl means, associated with the supports, installed on the base of the skpovoy frame 2.

Such an increase in the stand allows the use of a closed flow of elastic forces while simultaneously testing two springs, which makes it possible to reduce the required drive power by no more than 2 times.

The purpose of the invention is to use energy costs.

Claims (2)

The goal is achieved by having a stand with a pusher mounted on it and a pre-compressed spring acting on the pusher in the direction of KopoNtbJc, the casing and the pusher are connected to the frame and rocker respectively and the axis of the push eats the position of the rocker through the swing axis of the latter, and the axis of the sharnsf connecting the housing and the pusher, respectively, with the frame and rocker, do not coincide with the swing axis of the rocker arm. In addition, the stand is equipped with a device for adjusting the force of the hydraulic compression spring, which is made in the form of a threaded sleeve interacting with the body. In the described stand, the pre-compressed spring serves as an additional source of energy, which is included in a closed flow of elastic forces. FIG. 1 shows a stand, a section; on 4ig. 2 - installation option, housing with spring-loaded pusher} in FIG. W diagram of the proposed stand. The stand contains a power frame 1 with a rocker arm 2 installed in it, a crank drive gear 3 for rolling the rocker arm 2, supports 4, 5 and 6, 7 for the tested springs 8 and 9, one pair of 4 and 5 are placed along the arms 2. , and others 6 and 7, on the basis of 1O of the force frame 1, means 11 and 12 of compression load, connected with supports 6 and 7 and made, for example, in the form of a screw pair, and housing 13 with a pusher 14 installed in it and a pre-compressed box. 15, the carrier acting on the pusher 14 in the direction of the rocker arm 2. The housing 13 and the pusher 14 are pivotally connected respectively, with frame 1 and rocker 2, and set so that the axis of the pusher 14 passes in the equilibrium position of the rocker arm 2 through the last axis 16 of the latter, and the axis of the hinges 17 and 18 connecting the housing 13 and the pusher 14, respectively, frame 1 and the rocker 2, do not coincide with the axis 16 of the swing of the rocker arm 2. In addition, the stand is equipped with a device for adjusting the force of pressing the spring 15, which is designed as a threaded sleeve 19 cooperating with the body 13. The stand works as follows. Before starting the tests, the used springs 8 and 9 are mounted on supports 4, 5 and 6, 7 and are compressed with the same force by means 11 and 12 of static loading, with this MW the root of layer 2 remains in equilibrium. Then, using a threaded sleeve 19, adjust the compression of the spring 15, Since the line of action of the spring 15 in equilibrium state of the rocker arm 2 passes through its swing axis 16, the force from the spring 15 does not create a distorting moment about this axis, and the rocker arm 2 remains in equilibrium state. By turning on the ip drive actuator 3, the rocker arm 2 is rocked, and the test springs 8 and 9 are alternately compressed and stretched. When removing the crust 2 from the equilibrium position, the force of preload of the spring 15 creates a torque about axis 16, directed to the side of the compressive spring 8 or 9. This moment counteracts the moment from the test spring 8 or 9. The force on the drive 3 will be determined by the difference of these moments, which by adjusting the force of pressing the spring 15 can be reduced to zero. Changing the preload of the spring 15 is carried out when testing springs 8 or 9 of different stiffness, selecting for each test pair its value that corresponds to the minimum load on the actuator 3. Thus, the proposed stand can significantly reduce the drive power, as in the stand it is spent only on overcoming the losses in the joints and supports of the stand and on overcoming the non-espionage forces. Claim 1. Fatigue spring test bench containing a power frame with a yoke installed in it, a crank-and-rod drive for swinging the rocker arms, supports for the test springs, one pair of which is placed along the edges of the rocker arm and the other on the basis of the force frame, and means of static loading associated with the supports mounted on the base of the load frame, characterized in that, in order to reduce energy costs, it is provided with a housing with a pusher installed in it and a pre-compressed spring acting on the pusher in the direction of the yoke, the body and the pusher are pivotally connected to the frame and the yoke, respectively, and mounted so that the axis of the pusher passes in an equilibrium position of the yoke through the swing axis of the latter, and coincide with the axis of the swing rocker. 2. A stand according to Claim 1, characterized in that it is provided with a device for adjusting the acceleration of the carrier. which is made as a threaded body interacting with the body IT371KI. // ///////// ///////////////////////////////////////// / 1 Sources of information technology taken into account at the exponent 1. Copyright certificate CXXR number 410276, EL. G01 M 13 / OO, l971. 52. USSR author's certificate | №167335, CL. 1963 (prototype). /// y ////// f // is iTF1 g .2 / r- //////// 7 //////// ZZA Fig.Z