SU443279A1 - Installation for determining the flexural strength of cement samples - Google Patents

Description

one

The invention relates to a technique for testing building materials and may find use in testing cement for bending to determine its grade and quality.

Installations are known for determining the flexural strength of cement specimens, including a housing, an electric loading and gripping lever mechanism, and a force-measuring device.

However, the known installations do not provide the required accuracy and reliability in operation, since, due to a mismatch between the actual gear ratio of the levers and the calculated ratio, errors arise and, moreover, the reading device shuts down late.

The purpose of the invention is to improve the accuracy and reliability of the installation.

The goal is achieved by the fact that the load device is made with a coil spring connected through a support nut and a lever mechanism with a damper-damper and a scale mechanism with an arrow, and the electric drive is made of two single-phase electric motors of forward and reverse speed.

FIG. 1 shows a kinematic installation diagram; in fig. 2 - knot for adjusting the stiffness of the coil spring; in fig. 3 is a section along A-A in FIG. 2,

The installation includes a housing 1, a force-measuring device with a coil spring 2, a loading mechanism 3, driven by electric motors 4 and 5, respectively, of forward and accelerated reverse strokes, an oil damper-damper 6, which serves to quickly stop oscillation of the lever system, also to eliminate blows B the moment the specimen is destroyed. The lever system consists of two levers 7 and serves to transfer the load from the viit 8 loading mechanism through the screw to the claws 9, in which the test specimen-beam is installed. Possible gaps are eliminated by means of a nut rotated by the flywheel 10.

The electric motor 5 has twice the number of revolutions than the electric motor 4. The magnitude of the force transmitted by the coil spring 2 to the claws 9 is measured by a differential screw and scale mechanism 11, which convert the elastic linear deformations of the spring into angular movements of the locking arrow 12 on the dial indicator 13, which has two scales: for stresses in kgf / cm and for strength in kgf. This adjustment of the spring stiffness 2 and matching its stroke with the indication of the arrow on the dial 13 is achieved by changing the number of working screws by screwing or unscrewing the spring 2 into the thread of the support nut 14 and fixing the required number of screws in the slot of type 15 with a cotter pin 16.

The installation works as follows.

The test beam sample 40X40X X160 mm is mounted on the supports of the hook 9. Then, by turning the flywheel 10, choosing the backlash in the grips, the lever system and the loading mechanism, a small preload tension is created in the coil spring 2, about 1-2 kgf, then it turns on electric motor 4 of the loading mechanism, transmitting the rotation to the lead screw 8, which, stretching the spring 2 through the levers 7, transmits the force to the grippers 9.

The difference in the movements of the ends of the spring 2 by means of the differential mechanism 11 is converted into angular movement of the arrow 12, and the value of the breaking load is fixed on the indicator 13.

To destroy the sample by the force of the spring 2 using non-contact

The sensor turns off the electric motor 4 and turns on the electric motor 5. The electric motor 5 turns off with a limit switch when the load spring 5 returns to its original position.

Subject invention

An installation for determining the flexural strength of cement samples, including a housing, an electric loading and gripping lever mechanism, and a force-measuring device, characterized in that, in order to improve the accuracy and reliability in operation, the force-measuring device is made with a helical spring, connected through a support nut, and a lever mechanism with a damper-damper and a scale mechanism with an arrow, 0 and the electric drive is made of two single-phase electric motors, direct and accelerated the martial course.

14

FIG. g