SU1404294A2 - Vibration machine - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in the vibration treatment of parts. The aim of the invention is to improve the reliability of the machine by eliminating the contact of moving parts of the container that interact with the elastic support when operating in a resonant mode or passing through a resonance. For this, the elastic element of the support is made in the form of a spiral spring 13 and is placed inside the support glass. The support cavity is filled with a magnetic fluid, the composition of which allows the viscosity to change under the action of a magnetic field until solidified. This allows the movable fingers 24 of the working chamber to be placed in the fit of the sleeve 15 of the glass of the elastic support with a significant gap, which allows the machine to operate with a significant range of the amplitudes of the working chamber's oscillations, particularly at resonance and transition through resonance. Thereby increasing the reliability of the machine by eliminating finger breaks. 2 Il. & (L

Description

Slick

noSai a liquid

N {;

about

4 ;: N5

CO 4;

MS)

The invention relates to mechanical engineering, can be used in the vibration treatment of parts and is an improvement of the invention according to the author. St. No. 580097.

The aim of the invention is to improve the reliability of the machine by eliminating the contact of moving parts during the transition through resonance.

FIG. 1 is a schematic diagram of a vibration machine; in fig. 2 - device elastic support.

The vibratory machine contains a torus working chamber 1 (Fig. 1) connected to the base 2 by means of elastic supports 3. In the cavity of the working chamber I there is installed a vibrator 4 connected to the shaft of the electric motor 5 via an elastic coupling 6. The machine has a system for supplying the working fluid consisting of a sump tank 7 of the bristled pump 8. The pipe 9 is connected to the working chamber 1, the pipe 10 is connected to the cavities of the elastic supports 3. The pipelines are equipped with taps 11 and 12.

The elastic support consists of a coil spring 13 (Fig. 2) fixed inside a cylindrical cup consisting of a sleeve 14 into which the sleeve 15 is pressed with pressure. From above and below, the vessel is closed by covers 16 and 17, which are attached; lenses to the sleeve 15 with screws 18. The covers 16 and 17 are installed on paper o-rings (not shown). Two outlets 19 are soldered to the sleeve 14, into which the fittings 20 are screwed. The electric winding 21 is wound on the sleeve 14, forming solenoid,; closed by a casing 22, attached by screws 23 to the covers 16 and 17. The sleeve 14 and the sleeve 15 are made of a diamagnetic material. The internal cavity of the glass is filled with a magnetic fluid, which can be used as a colloidal suspension of ferrites and transition metals. The carrier media is typically organic liquids. Surfactants (usually oleic acid) are added to stabilize the suspensions.

As an example, we can mention a magnetic fluid, which is a suspension of magnetite in kerosene with the addition of oleic acid. The total concentration of magnetite is 24.8% by volume. In the lid 16 there is a hole through which a finger 24 enters into the glass, to which the upper end of the spring 13 is attached. The finger 24 is rigidly attached to the bottom of the working chamber 1.

The machine works as follows.

The vibrator 4 informs the working chamber 1 of low-frequency oscillations, under the action of which the mass of the load (working medium and workpieces) comes in a complex helical motion relative to circular

five

five

0

five

five

0

In the process of relative friction and

The axis of the working chamber 1. body movement, impact contact of parts and particles of the working medium, the parts are processed. When the electric winding 21 is de-energized, the magnetic fluid filling the internal cavities of the supports 3 has the minimum viscosity and provides the least resistance to the oscillations of the spring 13. At the same time, the amplitude of oscillations of the working chamber 0 is maximum.

If it is necessary to reduce the amplitude of oscillations of the working chamber 1 (when starting and stopping the machine, when switching from roughing to finishing, while separating parts, etc.), the command device (not shown) applies voltage to the windings 21. As the current increases in the windings of the solenoids, it increases the intensity of the magnetic field penetrating the magnetic fluid. At the same time, its viscosity increases 0 and, accordingly, the resistance of oscillations of the spring 13 increases, which leads to a decrease in the amplitude of oscillations of the working chamber 1. With a sufficiently high voltage, the solidification of the magnetic fluid can be achieved, which leads to a decrease in the amplitude of oscillations to zero. Thus, it is possible to regulate the amplitude of oscillations of the working chamber 1 over wide limits. Moreover, since the amplitude of oscillations is in this case a function of the electrical magnitude (voltage on the windings of solenoids), the process of its regulation is easy to automate.

When the spring 13 oscillates in a glass filled with a magnetic fluid, a significant amount of heat is released. To remove it, it is proposed to pump the coolant through the annular cavity formed by the sleeve 14 and the sleeve 15. For the supply and removal of coolant in the sleeve 14 there are 2 holes. As a coolant, a working fluid can be used for vibration treatment. The flow of coolant regulate the valve 12.

The proposed machine allows to obtain any law of motion of the working chamber 1, since the voltage in the windings of each of the solenoids can be varied according to an arbitrary program.

The use of the elastic support of magnetic fluid as a ferromagnetic part allows the placement of moving elements in the support with significant gaps, which increases the machine reliability by eliminating the breakage of fingers rigidly connected to the working chamber when operating in a resonant mode and passing through a resonance.

Claims (1)

Invention Formula Vibration machine for auth. St. No. 580097, characterized in that, in order to increase the reliability of the machine, the electromagnetic device is designed as a base mounted with a solenoid cup filled with magnetic fluid, and Each of the elastic elements is made up of a spring installed inside the cup and connected at its ends with a working chamber and a base. ig.1