SU1404888A1 - Installation for testing specimens in cyclic bending with twist - Google Patents

Description

(21) 4158109 / 25-28

(22) 12/09/86

(A6) 06.23.88. Bul No. 23

(75) K.L. Kozlov and L.A. Kozlov

(53) 620.178.311 (088.8)

(56) USSR author's certificate No. 1328736, cl. G 01 N 3/34, 1984.

(54) INSTALLATION FOR TESTING OF TEMPLATES / CYCLE ON CYCLIC BENDING BEND

(57) The invention relates to a test technique. The purpose of the invention is the expansion of types of loading by providing tests with different asymmetry of cycles during bending and torsion, as well as providing elastic and rigid modes of loading. .Sample 11 is set in grippers

1 and 2 are parallel to the axis of the vibrator 5. When the shaft 6 rotates with the levers 9 and 10, at the ends of which are masses 7 and 8, the sample is loaded, cyclically bending with torsion. The T-shaped lever 14 is rigidly connected at one end through the vibrator 5. with the gripper 2, and the second end having the transverse cross member 15 is connected with the device for creating a static load. When implementing the elastic loading mode, the traverse 15 is connected to the suspensions 16-18 with block 19, while implementing the rigid loading mode to one-side adjustable stops 23-25. 2 hp f-ly, 7 ill.

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The invention relates to testing equipment, to installations for testing samples for cyclic bending with torsion.

The purpose of the invention is to expand the types of loading by providing tests with different asymmetry of cycles in bending and torsion, as well as providing elastic and rigid modes of loading the sample.

FIG. 1 shows the installation diagram; in fig. 2-4 are diagrams of different lever-block suspensions with weights for realizing elastic loading of the specimen; in fig. 5-7 -circuits of various one-sided adjustable stops for the realization of hard loading of the sample.

The installation contains coaxial grippers 1 and 2, one of which is connected through the dynamometer 3 to the base 4, and the other to the vibrator 5. The vibrator 5 is a shaft 6, on which inertial masses 7 and B are placed, the centers of gravity of which are in the same plane with the axis of the shaft 6. When

one

In this way, masses 7 and 8 can be located either on opposite sides of shaft 6 or one at a time. The levers 9 and 10, on which the masses 7 and 8 are mounted, are perpendicular to the axis of the shaft 6. Sample 11 is connected by gripping 2 to the vibrator 5 and is mounted parallel to the axis of the shaft 6. The shaft 6 of the vibrator 5 is connected to the electric motor 12 by means of a flexible roller. 13

The force actuator in the form of a loading T-shaped lever 14 is rigidly connected at one end through the vibrator 5c by the gripper 2, and the other end is a transverse yoke 15 Suspension brackets 16-18 with the block 19 form a static load device providing an elastic loading mode. Traverse 15 is provided with bearing pads 21-22 for one-sided rigid adjustable stops 23-25. Hard adjustable stops 23-25 form a static load device providing a rigid loading mode. The oscillation damper 26 is connected to the loading lever 14.

The installation operates as follows. The magnitude of mass t 8 is chosen based on the required magnitude of the amplitude of the bending moment and the geometrical dimensions of the lever 10, the length of the shaft 6 and the angular velocity with its rotation. The value of t, mass 7 is chosen based on the required magnitude of the torque moment, the geometric size of the lever 9 and the angular clcopity from the rotation of the shaft 6, taking into account that part of the amplitude that the mass t creates, mass 7 and 8 is set

0 on levers 9 and 10, respectively. If the required torque amplitude is greater than the mass t creates, then t and t are set on one side of shaft 6, if less than 5 then on different sides.

Sample 11 is installed parallel to the axis of shaft 6 in grippers 1 and 2 of vibrator 5. Combining the test section of sample 11 with the rotation plane of center of gravity of mass 7 is provided by measuring the lengths of shaft 6, gripper 2 and sample 11. The shaft 6 of vibrator 5 is connected to an electric motor - Lem 12 using a flexible roller 13.

5 Load the T-shaped lever 14 with a crosspiece 15 and suspension brackets 16 and 17

rigidly connected through the vibrator 5 with the gripper 2, connected with the block 19 with the suspension 18 and connected to it

0 damper 26 vibrations. The motor 12 is turned on and the rotating masses 7 and 8 create a cyclic loading of the sample 11 by bending and torsion, after which the sample is loaded with static bending and torsion.

To implement the elastic load mode, weights Q are applied to the suspensions 16 and 17, which create a static bend of the sample with a moment 2Qj ;, and then weights P, which create a static torsion of the sample moments 2Pd, are mounted to the suspensions 16 and 18 (Fig. 2). FIG. Figures 3 and 4 show the equivalent load on the suspensions, respectively, of the smaller total cargo 2Q at Q P or 2P at Q P. To implement a rigid loading mode on the suspensions 16 and 17, weights Q are established, which create a static bend of the moment sample 2Q with pro0 flexion point C loading lever 14 (Fig. 5), after which the adjustable stop 23 rigidly fixes the position of the support platform 20 of the crosshead 15, and hence the loading 5 of the T-shaped lever 14. The loads Q are removed from the suspensions 16 and 17 and the sample remains rigidly loaded bending moment 2Qj .. Then pod5

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BecKfef 16 and 18 install weights P, creating a static torsion of the sample with a torque of 2Pd with an angle of rotation Cf of the crosspiece 15 (Fig. 6), after which the adjustable supports 24 and 25 firmly fix the position of the support platforms 21 and 22 of the crossbar 15 and, consequently, the loading T -shaped lever 14. The loads P from the suspensions 16 and 18 are removed and the sample remains rigidly loaded with a torque of 2Pd. FIG. Figure 7 shows the rigid loading of the sample with a static bending moment of 2Qg and a torque of 2Pd.

Claims (3)

1. Installation for testing samples on cyclic bending with torsion, containing the base, unbalance vibrator in the form of parallel levers fixed on the shaft perpendicular to its axis with inertial masses at the ends and parallel to the shaft axis coaxially. grippers, the first of which is sv -, 1 is engaged with the base, and the second - with vibra-. X / XX / 12() ZPtt Rattor, characterized in that, in order to expand the types of loadings by providing tests with different asymmetry of cycles in bending and torsion, it is equipped with an energizer in the form of a T-shaped coaxially grips loading lever, one end of which is rigidly connected with the second gripper, and to create a static load with which the other end of the lever interacts, which has a transverse traverse. 2. Installation under item 1, exe This is due to the fact that, in order to provide an elastic mode for loading the sample, the device is made in the form of a lever-block suspension with weights associated with the ends of the crosshead. 3. Installation according to claim 1, which is a chak), in order to ensure the rigid loading of the sample, the device is made in the form of one-way adjustable stops for fixing the position of the lever and its traverse. xx / x / xxxx / d- / Fi9.3 LLF / x / x / hch / x / x /