SU377816A1 - DEVICE FOR MODELING DEFORMATIONS AND STRESSED STATES OF ELEMENTS OF CONSTRUCTIONS - Google Patents

Description

one

The proposed device relates to the field of analog computing.

A device for modeling deformations and strands of structural elements is known, comprising springs, solid and tubular stems and locking screws.

The proposed device differs from the known ones in that two solid STRAs are installed inside two tubular rods rigidly connected to each other by means of locking screws, one of the tubular elements is connected to the first solid rod by a spring, and the other tubular element is connected to the second continuous rod locking screw .

This makes it possible to simplify the device for modeling the deformed and stressed states of the elements.

Pa drawing shows the proposed device, the overall appearance.

It consists of four main rods 1-4. The rods / and 4 are solid rods, they freely, with a slight gap enter the tubular rod 3, which freely, with a slight gap enters the tubular rod 2. The rods / and .2 are interconnected by means of an elastic connection, for example, springs 5. Terminals .2 and 5 are connected by a locking screw 5, and rods are 3 by a 4-locking screw 7. For counting the magnitude of the deformations, there are 8-10 scales.

The springs 5 are clamped with a left end / A ring rigidly connected to the rod 2, and the right end into a ring 12 which is freely sliding along the rod 2. The spring / spring 5 is connected with a cord 13 attached by one

the end to the ring 12, and the other to the rigidly connected to the rod / ring 14. To minimize friction, the cord 13 goes through the hinge 15 rigidly attached to the right end of the rod 2. To ensure the movement of the rod / exactly in the center of the rod 2 ring 16. Ring 11 is attached to the rod with a screw 17 and, if necessary, changing the initial length of the spring 5, it can be moved along the rod.

The relative displacement L at the rods / and 2 simulates the elastic deformations (stress) and is carried out with a longitudinal effect on the outer ends of the rods / and

4 by tensioning an elastic body, for example, a spring 5; Relative displacement L of bars 2 and 5 simulates plastic deformations and is carried out manually while loosening the locking screw 6. Relative displacement 4, -and rods .5 n 4 models3

It manages its own free deformations (temperature, shrinkage, and so on) and is carried out manually while loosening the screw of the screw 7. The relative length of the rods 3 and 4 also regulate the total length of the device. The relative displacements Ay, D ", -Agv are measured respectively on scales 10, 9, 8.

 In the neutral state of the device, when no force is applied, the spring 5 is in the neutral state, the pragva side of the ring 12 is at the zero scale value 10, the left end of the rod is 2 and the zero value is the scales of Y, the left end of the rod is 3 at the zero value Scles 8, the center of the ring 14 is located at the level of the hinge 15.

In the case of elastic compression, the rod: eib 1 together with the ring 14 moves to the left and, through the cord 13, stretches the spring 5; in this case, the ring 12 is moved to the right and along the scale 10. in the selected scale, it shows the magnitude of the elastic deformations L y.

In the case of elastic stretching, the rod 1, together with the ring 14, moves to the right and, through the cord 13, stretches the spring 5; the ring 12 is moved to the right and on a scale of 10 in the selected scale it shows the value of unrulyh deformities A y.

In the case of elastic-plastic growth or compression, elastic deformations are allowed only for a certain value, equal to Y y and the yield strength corresponding to the chosen scale. If the deformations exceed this limit, the locking screw 6 is loosened, and due to the relative displacement of the rods 2 and 3 on the scale 10, the deformations corresponding to the yield strength are established, after which the screw is fixed. In this case, on the scale 9, the magnitude of the plastic deformations A n is determined. In case of temperature expansion in

The conditions for the complete simulation are as follows:

Lock screw 7 is loose; the relative displacement of the rods 3 and 4 is carried out manually by an amount A ,, corresponding to the free temperature deformations; on a scale of 10, the elastic d-eformatias A y, but ngkale-Plast-deformation deformations A, occurring after the relative displacement of the rods 3 and 4 are measured.

Connecting the mechanisms with the help of connecting devices, but with different schemes and applying various effects to the models obtained in selected scales, one can analyze the deformations and

tension state of various designs.

Subject invention

A device for modeling deformations and stress states of structural elements, comprising springs, solid and tubular rods and locking screws, characterized in that, for the purpose of simplifying the device, two solid rods are installed inside two tubular rods rigidly interconnected by means of the stopper of the 1st screws, one of the tubular elements is connected to the first solid rod of the screw, and the other tubular element is connected to the second solid rod by the lock screw.

ff 17 P 7 J S 3/4