RU39926U1 - STEEL SPIRAL VIBRATION ISOLATOR FROM STEEL ROPE - Google Patents

Abstract

1. A twisted spiral vibration isolator from a steel rope, comprising detachable support strips with transverse recesses, in which a continuous strand of steel cable is laid along a helical interference fit followed by fixing it with bolts, characterized in that the recesses in the detachable support strips have a faceted cross-section and equipped with protective sleeves of a similar shape from a softer metal than the steel rope and detachable support strips, and the continuous whip of the steel rope consists of a set of steel ropes di 1.6 mm ameter. 2. A twisted spiral vibration isolator from a steel rope according to claim 1, characterized in that the steel ropes are twisted and pulled along their axis before installation in the protective sleeves, and after installation, each sleeve is pressed together with the steel rope lash.

Description

This utility model relates to the field of protective vibration isolation of marine electronic devices, as well as mechanisms and machines operating in a complex range of mechanical influences, and can be used in any field of technology as a means of reducing vibration and noise.

Known vibration isolator, which consists of an upper and lower support strips and an elastic element of segments of a steel rope. The lower support consists of a base plate - a plate and two pairs of strips placed on the left and right at the edge of the plate from the axis of the vibration isolator. The segments of the steel rope of the elastic element have a horseshoe-shaped shape, the ends of which are fixed to the strips of the lower support, and the middle part passes through the upper pair of support strips. In this case, part (one half) of the horseshoe-shaped segments of the steel rope of the elastic element is fixed with an inclination at a certain angle from left to right to the center relative to the vertical axis of the vibration isolator, the other part (second half) is from right to left to the center, i.e. opposite and symmetrical to the first part. Fixation of the segments of the steel rope of the elastic element in the lower and upper support strips is carried out using the coupling bolts [1].

A significant drawback of such a vibration isolator, in addition to its large overall dimensions and design complexity, is the deformation of the steel rope in the place of its clamping with different eccentricities at different turns, and there is an uneven concentration of local stresses in them, which leads to uneven wear due to the breakage of the steel rope in indicated places and a sharp reduction in the service life of the vibration isolator. All this leads to a decrease in the stability of the elastic damping characteristics of the vibration isolator.

The closest analogue (prototype) of the proposed utility model is a spiral vibration isolator made of steel rope, which is twisted in the form of a spring and fixed between two pairs of metal plates placed along the generatrix of the spring. At the same time, half the turns of the steel rope are fixed in the recesses with an inclination at a certain angle from left to right to the center relative to the vertical axis of the vibration isolator, and the other - the rim to the left to the center. The fixation of the turns of the steel rope in the recesses of the metal plates is carried out using the clamping screws [2].

The disadvantage of the prototype is the low reliability of the fastening of the steel rope in the recesses of the metal strips. It is possible to rotate sections of the steel rope in the recesses of the strips with insufficient compression of the steel rope with the strips during the assembly of the vibration isolator, or with a decrease in the compression force during operation due to the weakening of the tightening force or wear of the grooves of the strips, which also leads to instability of the elastic-damping characteristics of the vibration isolator.

The objective of the claimed utility model is the elimination of the aforementioned disadvantages of the prototype and obtaining stable dynamic characteristics of twisted spiral vibration isolators from a steel rope. The task is achieved by the fact that in the detachable support strips transverse curly notches are made: triangular, rectangular (square) or any other shape that has faces in which protective sleeves are made similar to these recesses in shape from a softer metal than steel wire and detachable support strips. The steel rope whips, consisting of steel ropes of small diameter - 1.6 mm, are passed into the bushings. Before this, each such cord is subjected to twisting and tension along its axis. The entire lash as a whole is also twisted and pulled along the axis of the lash. Then the protective sleeves are pressed and laid in a similar shape in the recesses in the upper and lower support strips, which are tightly tightened with bolts.

Such a design of the vibration isolator ensures its stable and reliable operation (curly grooves prevent the rotation of the steel rope whip in the places of its closure in the support strips) and excludes deformation of the steel rope in the places of its clamping (protective sleeves of softer material are subjected to deformation) as a result of crimping the bushings and the tie strips bolted.

Since no technical solutions with such a totality of existing features have been found from the existing level of technology, this utility model meets the criterion of "novelty."

Figure 1 shows a General view of the claimed utility model of a twisted spiral vibration isolator; figure 2 - remote element 1; figure 3 - options curly protective bushings and recesses in the slats in the section aa.

The inventive utility model of a twisted spiral vibration isolator comprises detachable support strips 1-4, in which a continuous whip of a steel rope 5 along a helical line is laid with an interference fit. The scourge 5 consists of either 10 steel ropes 6 with a triangular shape of the protective sleeve 7, or of 16 with a rectangular (square) shape of the sleeve 7. The diameter of the ropes is 7-1.6 mm. With an increase in the load-carrying capacity of the vibration isolator, along with its dimensions, the number of ropes and the dimensions of the protective bushings increase (the diameter of the ropes also changes). Detachable support strips 1-4 have curly transverse recesses 8, similar in shape to the protective sleeves installed in them 7. The edges of the recesses 8 on both sides are rounded with a radius of 2 mm. Protective sleeves 7 are put on a continuous whip of a steel cable 5, laid in figured recesses 8 in the corresponding sleeves 7 in the support strips 1-4 so that one half of the turns are fixed in the recesses 8 with an angle inclination (which is a constant value and depends on the size of the vibration isolator ) from left to right, and the other half - from right to left to the center relative to the vertical axis of the vibration isolator. Before that, everyone

the cord 6 and the lash 5 itself are twisted and pulled along its axis. Then the bushings 7 are compressed, and the detachable support strips 1-4 are rigidly pulled together by bolts (not shown in FIG. 1),

Obtaining stability and identity of the elastic-damping characteristics of each turn of the proposed vibration isolator is achieved due to the fact that the continuous whip of the steel rope in the places of its clamping between the detachable support strips has protective sleeves made of softer metal than the steel rope and support strips. In addition, the protective sleeves have a triangular or rectangular shape, and the recesses in the support strips repeat this shape. Such a connection of the rope, the sleeve and the recess during subsequent crimping and tightening the planks with bolts reliably fixes the rope lash between the detachable support plates, at the same time it does not deform the rope lash itself, does not violate its integrity and the integrity of the protective sleeves during the entire life of the vibration isolator.

The execution of a whip from the ropes with a diameter of 1.6 mm with preliminary twisting and pulling of each cord and the entire whip of the entire whip as a whole allows improving the condition of each cord, increasing the friction-sliding forces, which makes the operation of this vibration isolator even more reliable, and the elastic-damping characteristics are stable.

Information taken into account when analyzing the criterion of "novelty."

1. US patent 4,783,038 from 08/08/1988

2. Ionov A.V. Means of reducing vibration and noise on ships. - St. Petersburg: Central Research Institute named after Acad. A.N. Krylova, 2000, 112 p.

Claims (2)

1. A twisted spiral vibration isolator from a steel rope, comprising detachable support strips with transverse recesses, in which a continuous strand of steel cable is laid along the helical interference fit followed by fixing it with bolts, characterized in that the recesses in the detachable support strips have a faceted cross-section and equipped with protective sleeves of a similar shape from a softer metal than the steel rope and detachable support strips, and the continuous lash of the steel rope consists of a set of steel ropes di 1.6 mm ameter. 2. A twisted spiral vibration isolator from a steel rope according to claim 1, characterized in that the steel ropes are twisted and pulled along their axis before installation in the protective sleeves, and after installation, each sleeve is pressed together with the steel rope lash.