RU2537897C1 - Kochetov's equifrequential package of spring-type elastic elements - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building. The package of elastic elements consists of three vibration isolators, designed from cushion springs with the upper and lower horizontal shelves. Outer vibration isolator is fastened by means of fastening elements to the platform. Each of vibration isolators consists of three cushion springs of different height and different angle of inclination to a package rod. Vibration isolators are fixed on the package rod through spacer rings and are placed with reference to each other at an angle 120°. The lower horizontal shelves of springs of each consequent vibration isolator are located with increase by the height, determined by a conic surface inscribed in points of bending of lower horizontal shelves of the cushion springs.

EFFECT: higher vibration isolation efficiency.

4 dwg

Description

The vibration isolator refers to the means of protecting a human operator from the harmful effects of vibration and can be used in various machines and mechanisms, in particular in the machine tool industry, textile and light industry, agriculture, instrument making, and transport engineering.

The closest technical solution to the claimed object is the technical solution according to the patent of the Russian Federation No. 2293231 (prototype), containing spring elements in the form of flat springs located below the vibration-insulated object.

The disadvantage of the prototype is the relatively low efficiency of vibration isolation due to insufficient damping.

The technical result is an increase in the effectiveness of vibration isolation.

This is achieved by the fact that in the equal-frequency package of spring-type elastic elements containing spring elements in the form of flat springs located below the vibration-insulated object, at least three vibration isolators are made of spring springs with upper and lower horizontal shelves, and the external vibration isolator fastened by means of fasteners to the platform, and each of the vibration isolators consists of at least three spring springs of different heights and different angles of inclination to the package rod, where vibration isolators are fixed through the spacer rings and are arranged relative to each other in plan at an angle of 120 °, while the lower horizontal shelves of spring springs of each subsequent vibration isolator are located with a rise to a height determined by the conical surface that fits into the bending points of the lower horizontal shelves of spring springs.

Figure 1 shows a frontal section of an equal-frequency package of spring elements of elastic elements, figure 2 shows the arrangement of spring springs in vibration isolators, figure 3 is a profile of one of the spring springs in the package, figure 4 is a view A of figure 3.

An equal-frequency package of spring-type elastic elements, consisting of a platform 1 (Fig. 1) for installing a vibration-insulated object (not shown in the drawing), in the center and perpendicular to which is fixed a rod 9 with a threaded shank 10 and a nut 11.

An equal-frequency package of spring-type elastic elements consists of at least three vibration isolators 5, 7, 8, made of spring springs with upper 2 and lower 3 horizontal shelves. The external vibration isolator 8 is attached by means of fasteners 4 to the platform 1.

Each of the vibration isolators consists of at least three spring springs (Figs. 3, 4) of different heights and different angles of inclination to the rod 9 of the bag, on which the vibration isolators are fixed through spacing rings 6 and 12 and are arranged in relation to each other in plan (figure 2) at an angle of 120 °. In this case, the lower 3 horizontal shelves of spring springs of each subsequent vibration isolator are located with a rise to a height determined by the conical surface inscribed at the bending points of the lower horizontal shelves of spring springs.

The equal-frequency packet of spring-type elastic elements works as follows.

When a static load is applied to the upper platform 1 of the frame, it falls down, compressing the spring springs of 5, 7, 8 vibration isolators, which absorb vertical loads, thereby weakening the dynamic effect on the object, or installed on the floor of a building or vehicle chassis (not shown shown). The equal frequency of the vibration isolation system is ensured by the spatial orientation of the spring springs 5, 7, 8 of the vibration isolators included in it.

When a dynamic load is applied from the side of the object, for example, operating equipment, the vibration is damped by spring springs 5, 7, 8 vibration isolators, the stiffness of which is designed to operate the complex "overlap-elastic elements-object" system in the resonance mode, while providing spatial vibration protection and protection from impacts due to spring springs. The damping of a vibroinsulated object at high frequencies increases due to dry friction, which provides the necessary damping in the system at resonance. The effect of dry friction is realized by the free ends of spring springs, which slide in dynamic modes along the base or object, depending on the modes of power or kinematic vibration isolation.

The proposed technical solution is an effective vibration-protective tool that can be used to protect both equipment and the operator, with ease of maintenance and reliability of the structure in operation.

Claims (1)

An equal-frequency package of spring-type elastic elements containing spring elements in the form of flat springs located below the vibration-insulated object, characterized in that it consists of at least three vibration isolators made of spring springs with upper and lower horizontal shelves, and the external vibration isolator fastened by means of fasteners to the platform, and each of the vibration isolators consists of at least three spring springs of different heights and different angle of inclination to the package rod, n where vibration isolators are fixed through the spacer rings and are arranged relative to each other in plan at an angle of 120 °, while the lower horizontal shelves of the spring springs of each subsequent vibration isolator are located with a rise to a height determined by the conical surface that fits into the bending points of the lower horizontal shelves of the spring springs .

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