RU2646713C1 - Stack of plate springs - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to mechanical engineering. Stack of springs includes several pairs of plate springs arranged with clearance in cylindrical housing. Each pair contains opposite installed and free connected large bases of cone disks. Lower part of the housing is rigidly connected to the base, and a cover is movable in the upper part with a clearance. Smaller bases of the extreme pairs conical disc move into the centering cylindrical collar of the base and the cover. On the cylindrical surface of the casing the groove is made. Small bases of cone disks of adjacent pairs are connected with each other by damping element made in form of three-step disk. Set of belleville springs is made with alternating use of cone disks in each pair of disk springs with their polyurethane and without it. Damping element is made of hard vibrating damping materials. Three vibration damping plates are fixed on the cylindrical surface of the housing, connected with each other around the cylindrical surface of the housing by strapping with a cable.

EFFECT: increased efficiency of vibration isolation in resonance mode is being achieved.

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Description

The invention relates to mechanical engineering, instrumentation and can be used for vibration isolation of technological equipment, machine tools, devices and other objects.

The closest technical solution to the claimed object is an annular spring on.with. USSR No. 280111, F16F 1/08, 08/26/1970 (prototype), containing a set of ring springs, which is composed of sequentially alternating disks of larger and smaller diameters with edges bent to opposite sides along a radius that ensures pairing of the disks with one another.

A disadvantage of the known device is the relatively low efficiency at resonance due to the absence of vibration damping.

The technical result is an increase in the efficiency of vibration isolation in a resonant mode.

This is achieved by the fact that in the package of Belleville springs, consisting of interconnected external and internal annular elastic conical disks and from a set of Belleville springs, which includes at least two pairs of Belleville springs, and each pair consists of opposed and movably connected between them by the large bases of the conical disks, the number of pairs of disks in the set of such springs may be different depending on the stiffness and magnitude of the spring travel, and the set of disk springs is located in the cylinder a housing, the lower part of which is rigidly connected to a base having a centering cylindrical flange, into which the smaller base of the conical disks of one of the pairs moves movably, and a cover with a centering cylindrical collar, on which the smaller base of the other pairs from a set of Belleville springs, while a groove can be made on the cylindrical surface of the housing to reduce its radial stiffness, with large bases opposite laid and interconnected conical disks of each pair enter the housing with a gap, based on its inner cylindrical surface, and the smaller bases of the conical disks of adjacent pairs are interconnected by a damping element, which is made in the form of an axisymmetrically mounted set of disk springs of a three-stage disk, in the central part of which smaller bases of adjacent pairs of Belleville springs are based, conical disks are made with coating them on both sides or on one side with a vibration damping material rial, for example polyurethane, with a set of Belleville springs made with alternate use of conical disks in each of the pairs of Belleville springs coated with and without vibration damping material.

In FIG. 1 shows a frontal section of a spring package; FIG. 2 is a general view of one of the conical disks in a free state.

The disk spring package (Fig. 1) includes at least two sets of 13 disk springs, including at least two pairs of 11 and 12 disk springs, each pair consisting of 14 conical disks disposed opposite and movably interconnected by large bases ( Fig. 2), for example, a pair of 11 includes disks 7 and 8, and a pair of 12 includes disks 9 and 10. The number of pairs of disks in the set of such springs may vary depending on the stiffness and the size of the spring travel.

A set of 13 Belleville springs (Fig. 1), consisting of pairs of 11 and 12 Belleville springs, is located in a cylindrical body 3, the lower part of which is rigidly connected to the base 1, having a centering cylindrical flange 2, which moves the smaller base 15 of the conical disks of one from pairs, for example, the disk 10 of the pair 12. In the upper part of the housing 3, the cover 5 with a centering cylindrical collar 6 is movably, with a gap, on which the smaller base of the other pair, for example, the disk 7 of the pair 11, from the set of 13 disk springs is centered. A groove 4 can be made on the cylindrical surface of the housing 3 to reduce its radial stiffness. The large bases 14 of the opposed conical disks of each pair enter with a gap into the housing 3, based on its inner cylindrical surface, and the smaller bases 15 of the conical disks of adjacent pairs, for example, the disk 8 of the pair 11 and the disk 9 of the pair 12, are interconnected a damping element 16, which is made in the form of an axisymmetrically mounted set 13 of Belleville springs of a three-stage disk, on the central part of which are smaller bases of adjacent pairs of Belleville springs.

A variant is possible when the damping element 16, which is made in the form of an axisymmetrically mounted set 13 of Belleville springs of a three-stage disk, on the central part of which smaller bases of adjacent pairs of Belleville springs 8 and 9 are based, is made of solid vibration-damping materials, for example, agate plastic compounds, Anti-vibration ”,“ Shvim ”.

It is possible that at least three vibration damping plates 16 are fixed on the cylindrical surface of the housing 3, in which the groove 4 is made to reduce its radial stiffness (Fig. 1), interconnected around the cylindrical surface of the housing 3 by a strapping of elastic-damping material, for example, cable (not shown in the drawing).

The package of Belleville springs works as follows.

Under load P, the conical disks 7, 8, 9, 10 in each pair of a plate spring set interact simultaneously with one another, i.e. in pairs - on large bases 14, and in sets - on smaller bases 15. Moreover, in addition to their compression, they move along the inner cylindrical surface of the housing 3, which in turn experiences radial elastic loads.

In the process, the energy from the perceived loads is spent on the elastic deformation of each conical disk, for example, by analogy with each coil of a coil spring, as well as energy dissipation due to friction during their movement, for example, by analogy with damping during “dry friction”. The cup spring package is made in such a way that it allows the manufacture of conical disks from various materials and various blanks, for example, from sheet steel and non-ferrous cast alloys, as well as from non-metallic materials, including plastics and similar materials.

Claims (1)

A disk spring package, consisting of interconnected outer and inner ring elastic conical disks, consists of a disk spring set, which includes at least two pairs of disk springs, each pair consisting of conical opposed and movably interconnected large bases disks, the number of pairs of disks in the set of such springs may be different depending on the stiffness and magnitude of the stroke of the spring, and the set of Belleville springs is located in a cylindrical body, lower I part of which is rigidly connected to a base having a centering cylindrical collar, into which the smaller base of the conical disks of one of the pairs moves movably, and in the upper part of the body the cover with a centering cylindrical collar is located movably, with a gap, on which the smaller base of the other pair from the set Belleville springs, while a groove can be made on the cylindrical surface of the body to reduce its radial stiffness, moreover, with large bases opposed to and connected the conical disks of each pair are interconnected with a gap in the housing, based on its inner cylindrical surface, and the smaller bases of the conical disks of the adjacent pairs are interconnected by a damping element, which is made in the form of an axially symmetric set of disk springs of a three-stage disk, in the central part of which are based smaller bases of adjacent pairs of Belleville springs, and conical disks are made with coating them on both sides or on one side with vibration damping material, for example, liurethane, while the set of Belleville springs is made with the alternate use of conical disks in each of the pairs of Belleville springs coated with and without vibration damping material, and the damping element, which is made in the form of an axisymmetrically mounted set of Belleville springs of a three-stage disk, on the center of which are smaller the base of adjacent pairs of Belleville springs, made of solid vibration damping materials, such as plastic compounds such as "Agate", "Anti-vibration", "Shvim", characterized in that at least three vibration damping plates are fixed on the cylindrical surface of the housing in which the groove is made to reduce its radial stiffness, interconnected around the cylindrical surface of the housing by a strapping of elastic-damping material, for example, a cable.

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