SU122332A1 - Bending Tester for Cement Samples - Google Patents

Description

The present invention relates to a device for testing cement specimens for bending and solves the problem of approximating the test cement grout to the conditions of their operation at high temperatures and pressures.

For this, the device is made in the form of a lever-screw mechanism built into the autoclave and ensuring the destruction of the sample directly inside the autoclave.

The drawing shows a general view of a device for testing cement bending specimens.

The device consists of an autoclave casing / with a casing 3 attached to it with a bolt 2 bolt 2 containing a lever-viit mechanism.

The sleeve 4 is inserted into the body / autoclave with a cardboard mold poured with the cement mortar to be tested. The form touches the supports 5 on the one hand and is slightly supported by the lever support 6-on the other. The latter is rigidly connected with the lever 7 of the lever-screw mechanism and is connected by a hinge with a stop rod § screwed into the base 9 of the yoke 4. The other end of the lever 7 is in contact through the saddle 10 of the lever with the striker}. When the rod 12 rotates with the handle 13, the pressure nut 14 progressively moves along the right-hand thread of the rod 12 and compresses the calibrated spring 15, which transfers the force to the head 7 / and then to the lever 7. The translational movement of the pressure nut 14 is provided by means of the key 16 sliding in the slot of the guide sleeve 17 and rigidly connected to the pressure nut 14. Thus, when the stem 12 is rotated, the pressure nut 14 moves forward.

The recording part of the device consists of a line of sight 18 with divisions in millimeters: meters, mounted on housing 3, and an indicator / 9, slotted in the slot. Pointer 19 is connected to the nut

No. 122332-2 -

20 through a wedge sliding in the slot of the ruler 18 and providing the nut 20 during rotation of the stem to the left inward movement. Thus, the nut 20 repeats the movement of the push nut 14 and, on the reticle 18, marks its movement in millimeters. The arms of the arms and the thread pitch are chosen in such a way that when the cement specimen breaks down with the help of rotation of the brush 2, pointer 19 stops it against a certain number, marks the limit of the cement specimen when bending in kg / cm.

The body seal 3 ic case / autoclave is achieved by squeezing the copper gasket 21. In the same way, the body seals the autoclave ./ with its cover 22. The stem 12 is made of asbestos laminated and oiled cord squeezed by the grundbook 23.

Liquid from the press is fed through fitting 24. The pressure is measured by a pressure gauge mounted on tube 25. The temperature is recorded by two thermometers (or thermocouple) lowered into pockets 26 (there is no smaller pocket in the cut).

The required temperature in the autoclave is created by two electric furnaces, worn on the top and bottom of the autoclave body.

The method of operation of the device is as follows.

The mold is filled with cement mortar and is mounted in the cage 4 on its base 9. The cage descends into the autoclave, with the nut 14 and the pressure device being retracted to the extreme right position. After the cage has been inserted into the autoclave, the rod 6 of the lever 7 is brought to a contact with the cement form, which is indicated by the reticle 18. Then the autoshtap is poured with water, sealed and the desired temperatures and pressure are maintained in it. Upon the expiry of the stipulated term, the rotation of the stem 12 of the spring 15 is compressed, transmits the force to the lever, and the grinding beam is destroyed, which is clearly detected by the characteristic sound.

When the stem 12 is turned, the nut 20 is mixed to the right and stops against the determined division of the target plate. The difference in millimeters between the second and first readings corresponds to the limit of the strength of the cement sample during bending in kg / cm.

Since the form is made of very weak material (cardboard), its strength is not taken into account when calculating.

Subject invention

A device for testing cement specimens for bending, characterized in that, in order to bring cement grout tests to their working conditions at high temperatures and pressures, it consists of a lever-screw mechanism built into the autoclave and ensuring the destruction of the specimen directly inside the autoclave .