SU807124A1 - Device for maintaining constant load onto specimen - Google Patents

Description

I

The invention relates to the testing of materials for durability.

A device for maintaining a constant load is known, which contains several cylinders with compressed gas and oil connected to an energizer. The pressure source in this device is the potential energy of compressed gas l}.

The disadvantage of the device is the reduction of the applied load under dilution of the compressed gas, which leads to a distortion of the results. long-term durability

The closest to the invention in its technical essence is a device for maintaining a constant load on a sample for a long-term strength test installation containing a hydraulic pump and an exciter associated with a pipeline with a hydraulic cylinder, on the stem of which contact is made, interacting with hydraulic pump limit switches, a device for moving the rod of the hydraulic cylinder, made in the form of a set of weights mounted on the free end of the rod 12.

The disadvantage of the device is the low accuracy of the experiment with

carrying out tests for long-term strength due to the fluctuation of the load applied to the sample due to the large inertia of the rod with the load.

The purpose of the invention is to reduce the fluctuations of the load applied to the sample. The goal is achieved

0 in that the device for moving the rod is made in the form of an unequal arm interacting with the rod with a load whose weight is proportional to the specified load,

5 screw-screw gearbox with an electric motor, kinematically connected with a lever, an electric contact pressure gauge installed on the pipeline, the contacts of which

0 are included in the electric supply circuit of the electric motor of the worm-gear screw.

The drawing shows schematically a device for maintaining a constant load on a sample.

The device contains a hydraulic pump and a powering device (driver not shown), connected by pipeline 1 with hydraulic cylinder Core 2, on the rod 3 of which contact 4 is established, which interacts with the end switches 5 and 6 of the hydraulic pump. The lever 7 interacting with the rod 3 with a load 8, whose weight is proportional to the load being given, is kinematically connected to the screw 10 of the worm gear box 11 through the frame grip 9.

An electric contact gauge 12 is installed on the pipeline, the contacts of which are included in the control circuit of the electric motor 13 of the worm-screw reducer 11.

The device works as follows.

Before starting the tests include an electric motor 13 and a hydraulic pump. Under the action of oil pressure and force of the screw-screw reducer 11, the rod 3 and the lever 7 with the load 8 rise to the upper position, in which the Contact 4 acts on the limit switch 5, which turns off the hydraulic pump and the electric motor 13 The oil pressure in the hydraulic system is proportional to the load 8.

When the pressure in the hydraulic system decreases, the contact of the electrocontact pressure gauge 12 closes, the motor 13 and screw 10 are turned on with a reverse, falling down, acting through the frame clamp 9 on the lever 7. The stem 3 lowers, the pressure increases, the pressure gauge 12 contacts open and turn off the electric motor 13 The pressure in the hydraulic system thus remains constant.

When the stem 3 is lowered to the lower position, due to the deformation of the sample, the limit switch 6 is turned on, which instructs the tia to repeat the test cycle.

The use of the device allows to significantly improve the accuracy of the experiment when conducting long-term tests of various materials and structures.

Claims (2)

1.Methodical instructions for laboratory testing of plastic properties of rocks. Leningrad, VNIMI, 1972, p. 4-5 .. 2. USSR author's certificate 249733, cl. G 01 N W / Y, 1970 J, prototype). From g1fasos 1