RU44774U1 - ROPE VIBRATION INSULATOR - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to means of vibration isolation, and can be used to protect instruments and equipment from vibration and shock loads.

The inventive cable vibration isolator, consisting of two detachable cages and a closed elastic-damping element of a cable type, is equipped with another closed elastic-damping cable element and an additional detachable cage, consisting of two similar covers with half-cylindrical beds for jamming sections of cable elements, all three detachable connected by two cable elements pinched in the indicated clips, and the sections of two cable elements adjacent to the protected object y clamped in additional beds semicylindrical split cage, diametrically opposite with respect to a holder clamped in the additional sections of cable elements clamped in the other two yokes, and a plane closed rope elements are arranged symmetrically about the vertical plane of symmetry of the vibration isolator at the same angles as selected from the range of 39-40 °.

1 pf, 3 ill.

Description

The invention relates to mechanical engineering, in particular to means of vibration isolation, and can be used to protect instruments and equipment from vibration and shock loads.

Known cable vibration isolator, consisting of two detachable support strips with holes at the ends for attachment to the base and shock-absorbing product and an annular cable elastic element, which is formed from a whole segment of the cable, fixed in the grooves of the support strips in pairs with two diametrically opposite sections of the ring (RF Patent No. 2199683 , MKI F 16 F 7/14 / Method for the manufacture of elastic friction elements of cable vibration isolators // Ponomarev Yu.K., Arkhangelsky SV, Gunin VA, Kalakutsky VI // Declared 24.11.2000. 02.27.03 Bull. 6).

A disadvantage of the known vibration isolator is the inaccuracy of the assembly, namely, that when attached to the bar, the asymmetry of the structure appears in the form of unequal lengths of free sections of the cable elastic element, which affects the operational characteristics of the device.

The closest in technical essence and the achieved result is a cable vibration isolator, consisting of an elastic element in the form of a closed ring, fixed in two diametrically fixed places in two clips, used to attach the vibration isolator to the base and the protected object, and the clips are made detachable in the form of a rod, which is a body of revolution with hemispherical, conical and cylindrical threaded sections, hemispherical, conical section and

a small part of the cylindrical section of the rods is made with cuts along their common axes, hemispherical and conical sections are joined at the place of making holes perpendicular to the axes of each rod, the diameter of the holes being equal to the diameter of the cable element, the cable element is installed in these holes and pinched into them with nuts on the threaded sections of the rods, and bushings, crimping the split conical sections of the rods, and the elastic cable element is made in the form of a closed ring, twisted from an external screw strand standard cable, and the only joint of the strand is soldered and soldered in one of the detachable clips (RF Patent No. 2179667, MKI F 16 F 7/14 / Cable vibration isolator // Ponomarev Yu.K., Gunin V.A. et al. // Declared on February 5, 2001. Published on February 20, 2002 Bull. No. 5).

A disadvantage of the known vibration isolator is the uneven stiffness in three mutually perpendicular loading directions, which can lead to additional resonant modes in the operating range of the protected object.

The technical result, the achievement of which the creation of this invention is directed, is to provide the same rigidity of the vibration isolator in three mutually perpendicular directions while maintaining high adaptability and accuracy of assembly.

The technical result is achieved by the fact that the known cable vibration isolator, consisting of two detachable cages and a closed elastic-damping element of a cable type, is equipped with another closed elastic-damping cable element and an additional detachable cage, consisting of two similar covers with semi-cylindrical beds for pinching sections of the cable

elements, and all three detachable clips are resiliently connected by two cable elements pinched in the specified clips, sections of two cable elements adjacent to the protected object are pinched in the semi-cylindrical beds of an additional detachable clip, diametrically opposite relative to pinched portions of the cable elements pinched in two other clips , and the plane of the closed cable elements are symmetrically located relative to the vertical plane of symmetry of the vibration isolator under other angles a, selected from the range of 39-40 °.

The invention is illustrated by drawings, where:

figure 1 shows the appearance of the vibration isolator with partial cuts of detachable clips;

figure 2 is the same side view;

figure 3 shows the stages of the manufacturing technology of a closed cable ring of the elastic element from the outer strands of a standard metal cable.

Figure 4 shows the design diagram of the elastic element used in the theoretical calculation of the influence of the installation angle a on the stiffness characteristics of the ring.

Figure 5 shows the results of calculating the load characteristics of the ring installed at an angle α = 38.4 ° to the vertical plane, made to justify the value of the optimal installation angle of the rings in the vibration isolator.

The cable vibration isolator (figures 1, 2) consists of two closed annular cable elements 1 and 2, installed at an angle α to the vertical

a plane selected from the range of 39 - 40 °, two split cages 3 and 4, and a split cage 5, consisting of two strips 6 and 7, pulled together by a bolt 8, a lock washer 9 and a nut 10. Cylindrical grooves are made in the strips 6 and 7, in which are directly clamped by the elastic damping elements 1 and 2. Each of the split cages 3 and 4, in turn, consists of a rod, which is a body of revolution 11 with hemispherical, conical and cylindrical threaded sections. On the conical sections of the rods 11 are planted cone sleeves 12 with cones mating with respect to the rods 11 on their inner surfaces. Hemispherical, conical and a small part of the cylindrical section of the rods 11 are made with cuts along their common axes. Perpendicular to the axes of each rod 11, in the plane of the joint of their hemispherical and conical sections, holes are made with a diameter equal to the diameter of the cable element. Cable elements 1 and 2 are installed in these holes on the rods 11 of the detachable clips 3 and 4. For their installation, the cut parts of the rods 11 are previously parted apart to a distance that can pass the rings of the cable elements 1 and 2. To pinch the cable elements 1 and 2 in the holes 13 are screwed onto the threaded parts of the rods 11, which, together with the conical bushings 12, compressing the taper sections of the rods 11 when screwing the nuts 13, tightly clamp the cable elements 1 and 2. To prevent the nuts from being unfolded 13 dy them and conical bushings 12 are spring washers 14.

The elastic cable elements 1 and 2 of the vibration isolator are made according to the patent of the Russian Federation No. 2179667 in the form of a closed ring (figure 3), twisted from the outer screw strands of a standard cable. To do this, at first, a standard cable is woven, twisted from several multicore strands. In doing so, get a strand with

screw axis. Then, a ring of the required diameter is weaved from it, and the only joint 14 (Fig. 3) locks the solder first, and then pinch this place of the ring in one of the split clips of the vibration isolator.

To justify the correct choice of the installation angle of the planes of the cable elements relative to the plane of symmetry of the vibration isolator, the authors conducted a wide computational study of the elastic load characteristics of the ring in three mutually perpendicular directions (figure 4). The calculations performed by the finite element method showed that the stiffness of the ring installed at an angle of 38.4 ° (FIG. 4) in the x-axis direction (point 1 in FIG. 5) is equal to the stiffness of the ring in the y-axis direction (point 2 in FIG. 5). A comparison of stiffnesses numerically equal to the tangent of the tangent to the load characteristics of the ring is made for the neutral position of the object in the x-axis direction (point 1 in FIG. 5) and for the position loaded with the static force of the object’s weight in the Y-axis direction (point 2 in FIG. 5 ) Similar calculations were performed when calculating stiffnesses in the directions of the y and z axes.

The operation of the cable vibration isolator is as follows. The vibrational or shock load coming from the vibrating object or the base leads to bending or torsional deformation of the sections of the cable elements 1 and 2. Deforming, individual wires of the cable elements 1 and 2 slip relative to each other with friction at their contact points. Mutual slipping of wires during the deformation of the cable leads to the fact that the load characteristics of the vibration isolator in three mutually perpendicular directions have the form of hysteresis loops, the area of which characterizes the scattered cyclic energy. This energy, turning into heat, is dissipated in

the space surrounding the vibration isolator. Due to energy dissipation, the vibration of the object is damped and the loads on it are reduced during impacts.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by signs identical to all the essential features of the claimed invention.

The definition from the list of identified analogues of the prototype made it possible to identify a set of essential distinguishing features with respect to the technical result in the claimed "Cable vibration isolator" set forth in the claims.

Therefore, the claimed invention meets the criterion of "Novelty."

To verify the compliance of the claimed invention with the condition "Inventive step", the applicant conducted an additional search for known solutions in order to identify signs that match the distinctive features of the claimed invention from the prototype.

The search results showed that the claimed invention does not follow explicitly from the prior art determined by the applicant for the specialist, the effect of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed.

Therefore, the claimed invention "Cable vibration isolator" meets the criterion of "Inventive step".

The criterion of "Industrial applicability" is confirmed by the fact that the proposed invention can be used in transport engineering, light industry, instrument engineering and other branches of technology and is carried out using means known and described in the application. This proves the achievement of the technical result perceived by the applicant - ensuring the manufacturability of the vibration isolator assembly under conditions of small-scale production while maintaining the reliability of fastening the elastic element in the clips in the simplest way.

The introduction of the invention in the national economy will reduce the level of vibration stress of parts, machine components and mechanisms, and thereby increase their reliability and durability.

Claims (1)

A cable vibration isolator, consisting of two detachable cages and a closed elastic-damping element of a cable type, characterized in that the vibration isolator is equipped with another closed elastic-damping cable element and an additional detachable cage, consisting of two similar covers with semi-cylindrical beds for pinching sections of cable elements, the clips are resiliently connected by two cable elements pinched in said clips, the portions of two cable elements adjacent to the shield the clamped object is clamped in the semi-cylindrical beds of an additional detachable clip, diametrically opposite to the jammed parts of the cable elements are clamped in two other clips, and the planes of the closed cable elements are symmetrically located relative to the vertical plane of symmetry of the vibration isolator at the same angles α, selected from the range of 39-40 ° .