RU2450183C1 - Unit of vibration absorbtion - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: unit of vibration absorption consists of two interconnected pneumatic elements made as closed elastic chambers filled with compressed air. The pneumatic elements are interconnected and connected with a source of compressed air by means of damping channels. The channels are flexible tubes made of elastic material with a calibrated internal cylindrical surface having throttling properties. The system of pneumatic elements or each of them are separately enclosed in a shell of three layers. The outer antifriction layer is made, for example, of woven-wire-cloth containing strong elastic fibres. The middles elastic woven layer is made, for example, of elastic synthetic fibres. The inner layer is made of solid protective material, such as industrial fabric. One of the pneumatic elements is connected to a valve for controlling pressure in the chambers of pneumatic elements, and the other one is to a source of compressed air.

EFFECT: increased efficiency of vibration isolation.

2 cl, 4 dwg

Description

The invention relates to combined means of protecting the operator and equipment from vibration.

The closest technical solution to the claimed object is a means of protection against vibration on.with. USSR No. 1879826, class F16F 13/08 from 10/04/1989, containing a cavity associated with a source of compressed air, and having a valve for regulating pressure (prototype).

A disadvantage of the known technical solution is the relatively low degree of vibration isolation due to the absence of damping elements in the pneumatic system.

A technically achievable result is an increase in the effectiveness of vibration isolation and the reliability of operator protection from vibration.

This is achieved by the fact that in the vibration absorption means comprising a cavity connected to a source of compressed air and having a valve for regulating the pressure, there are at least two interconnected pneumatic elements made in the form of closed elastic cavities filled with compressed air, and connected with each other and with a source of compressed air by damping channels, which are flexible tubes of elastic material with a calibrated inner cylindrical surface, which has a throttling in addition, the entire system of pneumatic elements or each of them individually is enclosed in a shell of three layers: an outer, antifriction layer, for example, of a metal fabric containing strong elastic fibers, a middle elastic knitted layer, for example, of elastic synthetic threads, and an inner layer made of a continuous protective material, for example, technical fabric, while one of the pneumatic elements is connected to a valve for regulating the pressure pneumatic elements in the cavities, and the other to a source of compressed air.

Figure 1 schematically shows a system of pneumatic elements of arbitrary shape, figure 2 - a system of pneumatic elements of a spherical shape, figure 3 - connection diagram of pneumatic elements with each other and with a valve for regulation in the cavities of pressure pneumatic elements, figure 4 - diagram of a valve for regulation in the cavities of pneumatic pressure elements.

The vibration absorption means contains at least two interconnected pneumatic elements, for example, spherical in shape (Fig. 2), made in the form of closed elastic cavities (Fig. 1), filled with compressed air and connected with each other and with a source of compressed air ( not shown) damping channels 2, which are flexible tubes of elastic material of length L with a calibrated inner cylindrical surface, diameter d, with throttling properties.

In this case, the entire system of pneumatic elements or each of them individually enclosed in a shell 10 (figure 3) of three layers: the outer, antifriction layer, for example, of metal fabric containing strong elastic fibers, the middle elastic knitted layer, for example, of elastic synthetic yarns , and an inner layer made of a continuous protective material, such as technical fabric. One of the pneumatic elements is connected to the valve 9 for regulating the pressure in the cavities of the pneumatic elements 1, and the other is connected to a source of compressed air (not shown in the drawing).

Valve 9 (Fig. 4) consists of a glass 3, fixed with an open end, bearing an annular collar 4, on a pneumatic element and having an opening 5 on the side surface, and a shank 6 with measured risks and coaxially mounted on it with the ability to move on the bottom part and fixing and a spring 7 relative to the shoulder 4, the sleeve 7 for overlapping when moving the hole 5, while fixing the sleeve 7 is carried out due to the thread made on the outer side surface of the glass 3. The sleeve 7 is spring loaded relative to the shoulder 4 by a spring 8.

The vibration absorption means provides protection as follows.

When installing the sleeve 7 in a certain position relative to the shoulder 4 changes the area of the hole 5, i.e. release pressure ΔР. As a result, a different pressure (P-ΔР) is established in the cavities of the pneumatic elements 1, depending on the excess of the vibration parameters of the vibration source with respect to the limit spectrum. Changing the pressure of compressed air provides an increase in the loss of vibrational energy during the passage of the cavities 1 of the pneumatic elements under variable pressure of compressed air, as well as by throttling the air through the damping channels 2. The connection of the cavities of 1 pneumatic elements with a source of compressed air is carried out by means of flexible pipelines located along contour lines object.

An increase in the absorption capacity of the system located between the oscillation source and the operator or equipment due to a change in the pressure of compressed air allows for stepless regulation of the vibration-protective properties of the system, and as a result, an increase in the effect of protection against vibration in the entire standard frequency range. In this case, the installation between the shoulder 4 and the sleeve 7 of the spring 8 provides a reliable fixation of the sleeve 7 in any of the positions required during regulation.

This system provides an increased effect of protecting the operator or equipment from vibration in the entire frequency range, which reduces the risk of vibration illness in workers working, for example, with a vibroactive tool or equipment.

Claims (2)

1. Means for absorbing vibration, containing a cavity associated with a source of compressed air, and having a valve for regulating pressure, characterized in that it contains at least two interconnected pneumatic elements, made in the form of closed elastic cavities filled with compressed air and connected with each other and with a source of compressed air by damping channels, which are flexible tubes of elastic material with a calibrated inner cylindrical surface having throttling properties you, while the entire system of pneumatic elements, or each of them individually, is enclosed in a shell of three layers: an external antifriction layer, for example, from a metal fabric containing strong elastic fibers, a middle elastic knitted layer, for example, from elastic synthetic threads, and an inner layer made of a continuous protective material, for example technical fabric, while one of the pneumatic elements is connected to a valve for regulating the pressure pneumatic elements in the cavities, and the other to a source of compressed air. 2. The vibration absorption means according to claim 1, characterized in that the valve consists of a cup fixed with an open end bearing an annular bead on a pneumatic element and having an opening on the side surface, and a shank with measured risks on the bottom part, and coaxially mounted on with the possibility of movement and fixation and a sleeve spring-loaded relative to the shoulder for overlapping when moving the hole, while fixing the sleeve is carried out due to the thread made on the outer side surface of the glass, and the sleeve is propped Jinna relative to the shoulder spring.

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