RU41346U1 - PLATE VIBRATION INSULATOR - Google Patents

Abstract

1. A plate vibration absorber made in the form of two elastic elements bonded to each other, characterized in that the elastic element consists of a package of convex metal plates with a central hole for mounting fasteners, each of the metal plates is profiled in the form of rectangular petals with radially arranged circumference holes at their ends to accommodate fasteners in them, both packages of metal plates are mirrored to each other, while between them along the central the vibration isolator is equipped with a shockproof device. 2. The plate vibration isolator according to claim 1, characterized in that the shockproof device is made in the form of a pillow made of “MP” molded metal rubber wire material. 3. The plate vibration isolator according to claim 1, characterized in that the shockproof device is made in the form of a multilayer helical spring of a metal cable rolled into a torus.

Description

The utility model relates to the field of mechanical engineering, in particular, to elastic damping elements, and can be used in any field of technology to reduce overloads of units of household appliances, instruments and equipment operating in conditions of intense vibration and shock.

Known damping element, made in the form of a flat spiral spring, the ends of the turns of which are located in a plane perpendicular to the axis of the spiral, the beginning and end of the spiral are connected at one point in the package using a connecting element, and the turns of the spiral are located with a gap relative to each other (copyright certificate No. 3112994 , MKI F 16 F 1/34, 1969).

A disadvantage of the known damping element is its low damping properties, due to the fact that the coils of the spiral are located with a gap relative to each other.

The closest in technical essence and the achieved effect is a vibration isolation device made in the form of two elastic elements fastened together, mounted in a cylindrical body, and the elastic elements are made in a cross-shaped form (copyright certificate No. 1460470, MKI F 16 F 7/08, bull. No. 7, 1989).

The disadvantage of the prototype is the complexity of the design of the housing and the inefficiency of the power circuit of the device due to the alternate operation of the multilayer elements during the loading cycle.

The technical result, the achievement of which the creation of this utility model is aimed, is to ensure high and stable elastic-damping properties of the vibration isolator by creating a power circuit in which both multilayer packets work simultaneously throughout the entire loading cycle, as well as by creating high and predicted uniformly distributed compressive load and increase the stability of the vibration damper in three mutually perpendicular directions.

The technical result is achieved by the fact that in the plate vibration absorber, made in the form of two elastic elements bonded to each other, each of which consists of a package of convex metal plates with a central hole for mounting fasteners, each metal

plates is profiled in the form of rectangular petals radially spaced around the circumference with holes at their ends to accommodate fasteners in them, both packages of metal plates are mirrored to each other, while an anti-shock device made in the form of a pillow the pressed wire material of MP metal rubber or a multilayer helical spring of a metal cable rolled into a torus.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows a General view of a plate vibration isolator in isometry with a partial section;

figure 2 shows a frontal main view;

figure 3 shows a top view;

figure 4 presents a General view of a plate vibration isolator with two roll packages in a disassembled state;

figure 5 presents a variant of a cable shockproof device in the form of a helical torus.

The plate vibration isolator is made in the form of two packages 1 and 2 (Fig. 1) of profiled metal plates 3 (Figs. 1, 3, 4) inserted into each other and pulled together by fasteners 4 and 5, 6 and 7 (Fig. 1, 2, 4). Rivets 4 tighten both packages 1 and 2 together. Bolts 5 and 6, with the help of nuts 7, tighten the plates of the respective packages together and at the same time are the fastening of the vibration isolator to the base and the protected object. To prevent unscrewing of the nuts when exposed to vibration, washers 8 are installed (Figs. 1, 2). A shockproof device 9 is attached to the bolt 6, made in the form of a pillow made of pressed wire material MR (AS USSR No. 136608, "Elastic element for damping systems", authors: A.M.Soyfer, V.N. Buzitsky, V. A. Pershin) or in the form of a cable-like helical torus 10 (Fig. 5).

The device operates as follows. Under the action of a dynamic load applied to the bolt 5, the multilayer packets of the plates 1 and 2 are deformed. Moreover, under the action of bending, the layers of the packets slip relative to each other. Due to the mutual slippage of the layers with friction, the strain energy is dissipated, which is the reason for the reduction of vibrations of the vibrating object. With a sharp increase in shock loads, the energy of the shock is extinguished by a shock-proof device 9, which, in contact with the surface of the cap of the bolt 5, is also deformed with the wires slipping relative to each other and the energy of the shock is dissipated.

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 (identical) to all essential features of the claimed utility model.

The definition from the list of identified analogues of the prototype allowed us to identify a set of essential distinguishing features with respect to the technical result in the inventive “Plate vibration isolator” set forth in the utility model formula.

The proposed utility model can be used in transport engineering, light industry, other industries and implemented using known means. A theoretical study by the authors showed that the vibration isolator is able to provide a given level of stability of characteristics, and the design of the clips is able to maintain these characteristics in an unchanged state during operation. This proves the achievement of the technical result perceived by the applicant - ensuring high and stable characteristics of the vibration isolator.

Claims (3)

1. A plate vibration absorber made in the form of two elastic elements bonded to each other, characterized in that the elastic element consists of a package of convex metal plates with a central hole for mounting fasteners, each of the metal plates is profiled in the form of rectangular petals with radially arranged circumference holes at their ends to accommodate fasteners in them, both packages of metal plates are mirrored to each other, while between them along the central The vibration isolator is equipped with a shockproof device. 2. The plate vibration isolator according to claim 1, characterized in that the shockproof device is made in the form of a pillow made of pressed MP metal rubber wire material. 3. The plate vibration isolator according to claim 1, characterized in that the shockproof device is made in the form of a multilayer helical spring of a metal cable rolled into a torus.