RU2671679C2 - Package of ring springs - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to machine building. Package of ring springs consists of a set that includes at least two pairs of opposed and interconnected by large bases of annular elastic conical disks. Inner toroidal surface is formed in the joint of each pair. Outer toroidal surface is formed in the joint of the set of these pairs at smaller base. Every resilient conical disk is fitted by side conical surface with spherical segments located at the greater and the smaller bases of the truncated cone. Spherical segments are directed in opposite directions from the generatrix of the conical surface. Ring spring set is located in a cylindrical casing with its lower part being rigidly connected to the base. Base has a centering cylindrical collar into which the smaller base of one of the resilient conical disk pairs enters. In top part of casing freely with clearance lid with centering cylindrical shoulder is installed. Groove is provided on the cylindrical surface of the casing to reduce its radial stiffness. Base of the body is made of solid vibration damping material.EFFECT: enabling increase in the vibration isolation efficiency in resonance mode.1 cl, 2 dwg

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, dated 08/26/1970 (prototype), containing a set of ring springs, which is made up of successively alternating disks of larger and smaller diameters with edges bent to opposite sides along a radius that ensures that the disks pair 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 annular springs, consisting of interconnected external and internal annular elastic conical disks, forming a set including at least two pairs of opposed and interconnected large bases, annular elastic conical disks so that in the joint of each pair an inner toroidal surface of radius R is formed, and in the joint of a set of these pairs on the smaller base of the annular elastic conical disks an external toroidal surface is formed l of radius R, while each of the annular elastic conical disks has a lateral conical surface with spherical segments of radius R located respectively at the larger base of the truncated cone and the smaller base of the truncated cone of each of the disks, and the spherical segments are made together with the conical surfaces of each of the disks and directed in different directions from the generatrix of the conical surface, i.e. one spherical segment of each disk is directed inside the conical surface, and the other outward, while the number of pairs of disks in the set of such springs can be different depending on the stiffness and magnitude of the stroke of the spring, and a set of ring springs, consisting of pairs of annular elastic conical disks, is located in a cylindrical body, the lower part of which is rigidly connected to a base having a centering cylindrical flange, which includes a smaller base of one of a pair of annular elastic conical disks, and in the upper part the whisker is movable, with a gap there is a lid with a centering cylindrical collar, on which the smaller base of the other pair from a set of annular elastic conical disks is centered, while a groove is made on the cylindrical surface of the casing to reduce its radial stiffness, while large bases are opposite and connected between by themselves, annular elastic conical disks of each pair enter with a gap into the housing, based on its inner cylindrical surface.

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

The package of annular springs (Fig. 1) consists of a set comprising at least the Package of annular springs (Fig. 1) consists of a set comprising at least two pairs of opposed and interconnected large bases, elastic rings of conical disks 7 and 8 in such a way that an inner toroidal surface of radius R is formed in the joint of each pair, and an external toroidal surface of radius R is formed in the joint of a set of these pairs on the smaller base of the annular elastic conical disks.

Each of the annular elastic conical disks has a lateral conical surface with spherical segments of radius R located respectively at the larger base 9 of the truncated cone (Fig. 2) and the smaller base 10 of the truncated cone of each of the disks 7 and 8. In this case, the spherical segments are made together with conical the surfaces of each of the disks and are directed in different directions from the generatrix of the conical surface, i.e. one spherical segment of each disk is directed inside the conical surface, and the other outward. The number of pairs of disks in a set of such springs may vary depending on the stiffness and magnitude of the spring travel.

It is possible that at least three radial grooves 11 can be made on each of the disks 7 and 8, directed from the smaller base 10 of the truncated cone to the larger base 9. Each of the radial grooves 11 ends with an opening 12 for stress relieving (FIG. . 2).

A package of annular springs (Fig. 1), consisting of a set of annular springs, which consists of pairs of annular elastic conical disks, 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 includes a smaller base one of a pair of annular elastic conical disks. In the upper part of the housing 3, a cover 5 with a centering cylindrical collar 6, on which the smaller base of another pair from a set of annular elastic conical disks is centered, is movably with a gap. A groove 4 can be made on the cylindrical surface of the housing 3 to reduce its radial stiffness. With large bases, opposite and interconnected, the annular elastic conical disks, for example 7 and 8 of each pair, enter the housing 3 with a gap, based on its inner cylindrical surface.

A variant is possible when a lubricant, for example, solid oil, is introduced into the cavity 14 between the cover 5 and the adjacent annular elastic conical disk 8.

It is possible that the cavity 15 between the base 1 and the adjacent annular elastic conical disk is filled with an elastomer, for example polyurethane.

It is possible that the cavities 13 formed between pairs of adjacent annular elastic conical disks are filled with crumb from a vibration-damping material, for example, “Agate” type. To do this, the assembly of the package of annular springs is performed using the embodiment of the annular elastic conical disk (Fig. 2) with radial grooves 11 and holes 12, placing them alternately in combination with solid disks for backfilling of vibration damping chips.

It is possible that the base 1 of the cylindrical body 3, having a centering cylindrical flange 2, which includes a smaller base of one of a pair of annular elastic conical disks, is made of a solid vibration-damping material, such as plastic compound such as "Agate", "Anti-vibration", "Shvim".

The package of ring springs works as follows.

Under load P, the annular elastic conical disks interact with one another at the same time, both in pairs, on larger bases, and in sets on smaller bases. In this case, in addition to their compression, there is a movement along the inner cylindrical surface of the housing 3, which in turn experiences radial loads.

In the process, the energy from the perceived loads is spent on the elastic deformation of each annular conical disk, for example, by analogy with each coil of a coil spring, as well as on energy dissipation due to friction during their movement, for example, by analogy with damping during “dry friction”. The package of annular springs is made so that it allows the manufacture of its annular conical disks from different 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 package of annular springs, consisting of interconnected external and internal annular elastic conical disks, which consists of a set comprising at least two pairs of opposed and interconnected large bases, annular elastic conical disks in such a way that the joint of each pair, an inner toroidal surface of radius R is formed, and in the joint of a set of these pairs on the smaller base of the annular elastic conical disks, an external toroidal surface of radius R is formed, at m each of the annular elastic conical disks has a lateral conical surface with spherical segments of radius R located respectively at the larger base of the truncated cone and the smaller base of the truncated cone of each of the disks, and the spherical segments are made integrally with the conical surfaces of each of the disks and are directed in different directions from forming a conical surface, i.e. one spherical segment of each disk is directed inside the conical surface, and the other outward, while the number of pairs of disks in the set of such springs can be different depending on the stiffness and magnitude of the stroke of the spring, and a set of ring springs, consisting of pairs of annular elastic conical disks, is located in a cylindrical body, the lower part of which is rigidly connected to a base having a centering cylindrical flange, which includes a smaller base of one of a pair of annular elastic conical disks, and in the upper part the whisker is movable, with a gap there is a lid with a centering cylindrical collar, on which the smaller base of the other pair from a set of annular elastic conical disks is centered, while a groove is made on the cylindrical surface of the casing to reduce its radial stiffness, while large bases are opposite and connected between by itself, annular elastic conical disks of each pair enter with a gap into the body, based on its inner cylindrical surface, characterized in that the base of the cylinder nical housing having a cylindrical centering shoulder, which includes the minimal base of one of the pair of annular resilient conical disk made of a solid vibration damping material, for example plastic such as "agate", "Antivibrit", "Shvim".

Images