RU78540U1 - Vibration Isolator - Google Patents

Abstract

The utility model relates to mechanical engineering, namely: to vibration isolators - and is intended to protect equipment and devices from vibration and shock. The essence of the utility model is that in the known design of the vibration isolator, which includes: an annular elastic element made of MP wire material with a reinforcing multilayer package installed inside it, two detachable mounting clips mounted on diametrically opposite sides of the elastic element - the reinforcing element is made in the form of a closed loop Moebius torus, twisted from the outer strand of the cable and sandwiched between clips. The halves of the clips are joined with rivets.

Description

The utility model relates to mechanical engineering, namely: to vibration isolators - and is intended to protect equipment and devices from vibration and shock.

Known annular all-metal vibration isolator containing an elastic damping element made of material MR, two detachable clips diametrically located on the element, used to attach the vibration isolator to the base and the insulated object. The elastic element is made in the form of a closed contour of the Moebius torus (RF Patent No. 2199683. Authors: Ponomarev Yu.K., Arkhangelsky SV, Kalakutsky VI. Declared November 24, 2000, published February 2, 2003 Bul. No. 6).

A disadvantage of the analogue is the low intrinsic strength of the elastic-damping elements due to the fact that during the pressing of the MR material, there is a significant deformation of the spiral wires on the end surfaces of the corrugated plates.

The closest in technical essence to the claimed one is a vibration isolator, including: an annular elastic element made of pressed wire material MP with a reinforcing multilayer bag installed inside it, two detachable mounting clips mounted on diametrically opposite sides of the elastic element, where the reinforcing bag is made in the form of a closed torus contour Moebius twisted from the outer strand of the cable (RF Patent No. 55310. Authors: Ponomarev Yu.K., Ermakov A.I., Parovay F.V., Kotov A.S., Mednikov M.V., Davydov D.P. , Evsigne ev A.E., Kalakutsky V.I., Bezvodin V.A. IPC B21F 21/00. Published on August 10, 2006).

The disadvantage of the prototype are different stiffness in different directions.

The utility model is based on the task of ensuring high reliability, load capacity and a small dispersion of the stiffness of the vibration isolator in three mutually perpendicular directions while ensuring good adhesion of the reinforcing element with an array of MR material covering it.

This problem is solved due to the fact that in the vibration isolator, including an elastic element made of MP wire material with a reinforcing element installed inside it, two detachable mounting clips, the reinforcing element is made in the form of two closed loops of the Moebius torus located inside the elastic ring of MR material, and the center of gravity of the cable ring coincides with the geometric center of gravity of the elastic ring of the vibration isolator as a whole, while the elastic ring is deformed in two mutually perpendicular directions, clamped forward collars at four points and extended along its axis.

Figure 1 shows the appearance of the vibration isolator;

figure 2 shows the appearance of the elastic element (initial state);

figure 3 shows the appearance of the elastic element (final state);

figure 4 shows the appearance of the halves of the cage.

The vibration isolator consists of an elastic-damping element 1 made of MP material, two detachable fastening clips 2 connected by rivets 3. Inside the elastic-damping element two closed Möbius torus circuits are made of cable, twisted according to RF patent No. 2199683. The elastic-damping element is sandwiched between the clips (Fig. 4) along the platforms 6. The clips have holes for rivets 4 and for attaching vibration isolation 5 to the object.

The operation of the vibration isolator is as follows.

When a vibrational load is exposed to a vibroinsulated object, the vibrational energy is dissipated in the form of heat in the MR material of the elastic damping element during mutual friction of the wires

each other, as well as in the cable loop of the Moebius torus during the mutual movement of the strands and cable strands against each other. At the same time, due to significant compressive loads during the pressing of the MR material in the cable ring, friction forces increase in comparison with a free cable. This increases the damping properties of the elastic damping element as a whole. In addition, the combination of the cable element with the material MR creates a smooth change in local stiffness in the areas of contact with the clips, which significantly reduces the stress concentration and increases the intrinsic strength of the vibration isolator, which increases even more when it is deformed in tension. In this case, a cable closed loop in the form of a Moebius torus takes up most of the load with respect to the shell made of MP material, which works very poorly in tension.

The proposed utility model can be used in transport engineering, light industry, other industries and implemented using known means. A theoretical study by the authors showed that the isolator is able to provide a given bearing capacity and low level of rigidity, that is, high efficiency of vibration isolation at the operating modes of various objects. This proves the achievement of the technical result perceived by the applicant.

Claims (1)

Vibration isolator, including an annular elastic element made of pressed wire material MP with a reinforcing multilayer package installed inside it, two detachable mounting clips located at an angle of 90 ° to each other and installed on opposite sides of the elastic element, distinguishing The fact that the reinforcing bag is made in the form of two closed loops of the Moebius torus located inside the elastic ring of MR material, the center of gravity of the cable ring coinciding with the geometric center of gravity of the elastic ring of the vibration isolator as a whole, and the elastic ring is deformed in two mutually perpendicular directions and elongated along its axis.