RU187046U1 - ALL-METAL VIBRATION ISOLATOR - Google Patents

Abstract

The utility model relates to the field of metal forming, in particular, to the manufacture of products from an elastic damping porous material for vibration protection of dynamically loaded objects that can be used in rail and road transport, construction and road equipment, hoisting and positioning mechanisms and other ground transportation systems and All-metal vibration isolator CVPG containing a hollow elastic-hysteresis element made of metal-rubber wire material and fixed bolts fixed in its central holes by means of profile washers-limiters and nuts, moreover, through the central holes are made in the fixing bolts, and characterized in that a recess is made in the hollow elastic-hysteresis element from the horizontal side thereof, the heads of the fixing bolts are made spherical forms and they have cylindrical grooves in which a pair of conical springs are additionally installed, in which the diameter of the base is larger than the diameter of the apex, and they are supported are large diameters in a shockproof pillow, which is made of biconvex metal rubber with a through central hole and a large diameter fixed in the recess of the elastic hysteresis element, and the springs and shockproof pillow are placed in the inner closed cavity of the vibration isolator formed by the surface of rotation, the shape of the external contour of the finished product . The proposed all-metal vibration absorber "hollow naked" allows you to improve performance when space loading, has a large resource, and strength properties are improved, the bearing capacity is increased, shockproof and weight and size characteristics are improved, and labor resources are reduced.

Description

The utility model relates to the field of metal forming, in particular, to the manufacture of products from an elastic damping porous material for vibration protection of dynamically loaded objects that can be used in rail and road transport, construction and road equipment, hoisting and positioning mechanisms and other ground transportation systems and means.

Known vibration isolator type DKM (double bell modified), made in the form of two bell-shaped elements ("bells") made by pressing from wire material "metal rubber" (MP), reinforced with a wire bundle wrapped in a stretched wire spiral, mounted on top of each other, rigidly fastened around the periphery by stitching from steel wire. Bolts are mounted on the bells, on which profiled restriction washers and nuts are mounted, shockproof pads made of MP material can be installed on one of the bolts, and two conical springs can be installed inside and outside each bell, bolted to the tops of the cones, with external springs they are supported by large diameters on bells, and the internal ones - on a shockproof cushion made of MP material (see Lazutkin G.V., Antipov V.A., Ryabkov A.L. Improving designs and methods for calculating vibro insulators based on wire fiber material. - Samara: SamGUPS, 2008. - 200 p.).

The disadvantages of this vibration isolator are the big difference between the compression and tensile characteristics, since the conical springs in it work only on compression and the fact that the manufacture and assembly of the vibration isolator is very expensive for manual labor, in particular, stitching the “bells” and significant deterioration in the strength of the finished product for the same reason.

Known all-metal vibration isolator "hollow naked" and the method of its manufacture. The vibration isolator contains a hollow elastic hysteresis element made of metal-rubber wire material and fasteners fixed in its central holes using profile washers and nuts. The fasteners according to one embodiment are made in the form of two bolts, and in one of the bolts a through central hole is made. In another embodiment, in the form of a bolt and a sleeve with a through threaded hole and a flange. A stud is screwed into the threaded hole. According to the third option - in the form of two such bushings with studs screwed into them. The vibration isolator according to the second embodiment is additionally reinforced with a bundle of straight wire bundles wrapped in a wire spiral stretched with a constant pitch. A method of manufacturing a vibration isolator is as follows. Fasteners are installed on a hermetically sealed cloth bag tightly packed with sand. Winding a stretched wire spiral, form a spherical workpiece. An elastic hysteresis element is made by pressing first in radial directions and then in axial direction. Fasten the bolts. Make holes in the cloth bag and pour sand. The fabric shell is removed or burned, or left in a vibration isolator. Screw the studs and fasten them. (RF patent No. 2534850, IPC F16F 3/08, F16F 1/362, authors: Eskin I.D., Bezvodin V.A., Ermakov A.I., Parovay F.V., publ. 10.12.2014. Bull No. 34).

The disadvantages of this vibration isolator and its manufacturing technology include the low load-bearing capacity of the vibration isolator for heavy objects, as well as an insufficient resource due to the full perception of the dynamic load by the elastic hysteresis element of the vibration isolator during operation, and insufficient shockproof properties. In addition, in the process of forming a billet for pressing by winding a wire spiral on a sand bag, the billet constantly undergoes plastic deformation due to the fluidity of the sand, as a result of which the shape of the billet, the density of its winding, the wall thickness of the winding, etc., are violated, which ultimately, leads to an unaccounted for change in the shape and elastic-hysteresis properties of the finished product and high labor costs. In addition, the range of shapes of the finished product and its internal cavities is significantly limited due to the presence in the process of the original shape of the sand bag.

This vibration isolator is selected as the prototype of the alleged invention.

The technical result is an increase in the load-bearing capacity of the finished product, unloading of the elastic hysteresis element of the vibration isolator during its operation, increase in the operability of the vibration isolator under shock loading, as well as ensuring the strength, unchanged shape and elastic-hysteresis characteristics of the vibration isolator during its mass production.

The technical result is achieved by the fact that the all-metal vibration isolator contains a hollow elastic hysteresis element made of metal-rubber wire material and fixing bolts fixed in its central holes with profile washers-limiters and nuts, and through the central holes are made in the fixing bolts, according to a utility model, in a hollow elastic hysteresis element a groove is made on the inside of it on a horizontal plane, the heads of the fixing bolts are spherical forms and they have cylindrical grooves in which a pair of conical springs is additionally installed, in which the diameter of the base is larger than the diameter of the apex, and they are supported by large diameters in an shockproof pillow, which is made of a biconvex metal rubber with a through central hole and its large diameter fixed in a recess an elastic hysteresis element, wherein the springs and shockproof cushion are placed in the inner closed cavity of the vibration isolator formed by the surface of rotation, e vidistantnoy shaped outer contour of the finished product.

The implementation of the elastic hysteresis element is hollow with a recess, with the installation of a pair of conical springs, which are supported in a shock-absorbing pillow of a biconvex shape, which allows to increase the bearing capacity, unload the elastic-resistive element, increase operability, ensure strength, shape uniformity.

In FIG. 1 shows a longitudinal section of the proposed all-metal vibration isolator.

The all-metal vibration isolator (see Fig. 1) contains an elastic hysteresis element 1, hollow mounting bolts with spherical heads 2, profile washers-limiters 3 and nuts 4, through holes 5, at the ends of the production bolts for fixing bolts 6, in spherical heads of bolts with cylindrical pockets 7, conical springs 8, an anti-nuclear pillow made of metal rubber 9, a central through hole 10.

The depressions 11 in the elastic hysteresis element.

All-metal vibration isolator works as follows.

Vibration load cyclically deforms the vibration isolator. In this case, due to the work of the friction forces that occurs when the wires slip inside the elastic-hysteresis element relative to each other, vibration energy is dissipated, and excess heat is removed, for example, by blowing air through the through holes 5 in the bolts 2. Conical springs pre-pressed before installation in the mold for casting 8 perceive the weight load from the vibration-insulated object, thereby unloading the elastic-hysteresis element 1 and increasing its life. In addition, the springs 8 partially unload the elastic hysteresis element 1 and in the process of perceiving the vibration insulator of the dynamic load due to their installation parallel to the elastic hysteresis element 1, which significantly improves the strength characteristics of the vibration isolator and also increases its service life. When exposed to shock absorber due to the elastic deformation of the springs 8 and the elastic hysteresis element 1, the axial clearance of the vibration isolator is completely knocked out and the shockproof cushion 9 is made of biconvex metal rubber fixed in the cavity 11, with a central hole 10, and profile limit washers 3 fixed by nuts 4, screwed onto bolts 6. In addition, individual sections of the elastic-hysteresis element 1 work in compression (rather than bending!) 1. The total energy goemkost such system elements installed in series is very high, effectively perceive shock load vibration isolators. To prevent the axial displacement of the conical springs 8 when installing them in the casting mold, as well as when the vibration isolator completely selects the axial clearance (under shock loading of the vibration isolator), cylindrical grooves 7 are provided in the bolt heads 2, fixing the springs from lateral displacement.

The proposed all-metal vibration isolator allows to improve the characteristics under spatial loading, has a large resource, and improved strength properties, increased load-bearing capacity, improved shock and weight and size characteristics, reduced labor resources.

Claims (1)

An all-metal vibration isolator containing a hollow elastic hysteresis element made of metal-rubber wire material and fixing bolts fixed in its central holes with profile washers and nuts, and through the central holes are made in the fixing bolts, and characterized in that the hollow elastic hysteresis element has an inner the sides on the horizontal plane are made a recess, the heads of the mounting bolts are made spherical in shape and they have a cylindrical groove in which a pair of conical springs is additionally installed, in which the diameter of the base is larger than the diameter of the apex, and they are supported by large diameters in a shockproof pillow, which is made of biconvex metal rubber with a through central hole and a large diameter of it is fixed in the recess of the elastic-hysteresis element, the springs and shockproof the pillow is placed in the inner closed cavity of the vibration isolator formed by the surface of rotation, equidistant in shape to the outer contour g tovogo products.

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