RU99563U1 - ROPE VIBRATION INSULATOR - Google Patents

Abstract

 A cable vibration isolator made in the form of two vibration isolators arranged symmetrically relative to the shock-absorbing object, each of which consists of a coil segment in the form of a coil fixedly mounted in two trims, characterized in that both vibration isolators have common mounting clips, the trims are made in the form of adjusting rollers having the possibility of axial rotation and connected to the mounting clips through the support, and the adjusting rollers depending on the mode of vibration loading can be rotated to the rear angle using a socket wrench and then secured with lock washers.

Description

The utility model relates to the field of engineering and can be used for vibration protection of instruments and equipment in any field of technology.

Known cable vibration isolator, consisting of two mounting clips in which the elastic damping elements in the form of segments of a cable having the shape of a half-ring (US No. 5897093, Antivibration / antishock device using cable segments and stabilizer blades / Eric Le Derf. Filed September 7, 1996. Patented 04/27/1999).

A disadvantage of the known cable vibration isolator is the loss of stability in the perception of loads in the transverse direction.

The closest in technical essence and the achieved result is a cable vibration isolator, in the form of two vibration isolators located symmetrically relative to the shock-absorbing object, each of which consists of a piece of cable in the form of a coil fixedly mounted in two trims, the design of which is described in US patent No. 3476851. This design is selected as a prototype.

The disadvantage of the prototype is the inability to adjust the stiffness characteristics, and therefore, the inability to provide the required vibrational protection of the object when changing the vibration loading mode.

The technical result, the achievement of which the claimed technical solution is directed, is to provide the ability to adjust the stiffness characteristics of the cable vibration isolator when changing the vibration loading mode.

The technical result is achieved by the fact that in the known cable vibration isolator in the form of two vibration isolators arranged symmetrically with respect to the shock-absorbing object, each of which consists of a cable segment in the form of a coil fixed in two strips, both vibration isolators having common mounting clips, the strips are made in the form adjusting rollers, with the possibility of axial rotation, connected to the mounting clips through the support. Adjusting rollers, depending on the mode of vibration loading, can be rotated to a predetermined angle using an allen key, then fixed with lock washers.

The specified disadvantage of the prototype is eliminated by the use of adjustment rollers in the proposed utility model of a cable vibration isolator, which allow adjusting the stiffness characteristics, and therefore, ensuring the required vibrational protection of the object when changing the vibration loading mode.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows the appearance of the vibration isolator in isometry;

figure 2 shows the appearance of the mounting clips;

figure 3 shows the appearance of the adjusting rollers;

figure 4 shows the appearance of the elastic damping element assembly with the adjusting rollers.

The cable vibration isolator (Fig. 1) contains two identical mounting clips (Fig. 2), each of which consists of a housing 1 having samples 2 for fastening to it using supports 3 and screws 4 of the adjusting rollers 5 (Figs. 1, 3, 4), the rotation of which along the axis is limited by the lock washers 6 (figure 1). The adjusting rollers 5 in the transverse plane have samples 7 (Fig. 3) for accommodating the coils of the elastically damping element 8 in the form of a piece of cable (Figs. 1, 4) and end-wrench holes 9 (Figs. 3, 4) for the possibility of adjusting the hardness elastic-damping element 8. On the end surfaces of the adjusting rollers 5, a scale is applied in the form of a limb 10, calibrated from 0 to 360 degrees in increments of 5 degrees, for precise adjustment (Figs. 3, 4). Two identical elastic-damping elements 8 pairwise interconnect the adjustment rollers 5 of the upper and lower mounting clips located one above the other (Fig. 4). The fixation of the elastic damping elements 8 on the adjusting rollers 5 is carried out by means of strips 11 and screws 12 (Figs. 1, 3, 4).

The principle of operation of the proposed utility model is that the upper mounting bracket 1 (Figs. 1, 2) with the vibration protection object mounted on it shifts relative to the motionlessly fixed lower mounting bracket under the influence of vibration load. The dissipation of vibrational energy is achieved due to the occurrence of friction between the fibers of the elastically damping elements, and the number and spatial arrangement of the elastically damping elements makes it possible to ensure vibration protection of the object in all directions. The proposed design of a cable vibration isolator implies the possibility of regulating the stiffness characteristics with the help of the adjusting rollers 5 by rotating them with the socket wrench clockwise / counterclockwise to the required angle indicated on the limbs 10 of the adjusting rollers 5 (Figs. 1, 3, 4). As a result of the rotation of the adjusting rollers 5, the shape of the elastic line of the elastic damping element 8 changes, causing a change in the stiffness characteristics of the cable vibration isolator as a whole (Figs. 1, 4).

Compared with the prototype, the inventive utility model of a cable vibration isolator provides adjustment of the stiffness characteristics when changing the vibration loading mode.

Claims (1)

A cable vibration isolator made in the form of two vibration isolators arranged symmetrically relative to the shock-absorbing object, each of which consists of a coil segment in the form of a coil fixedly mounted in two trims, characterized in that both vibration isolators have common mounting clips, the trims are made in the form of adjusting rollers having the possibility of axial rotation and connected to the mounting clips through the support, and the adjusting rollers depending on the mode of vibration loading can be rotated to the rear angle using a socket wrench and then secured with lock washers.