RU1788335C - Pump for magnetorheological suspensions - Google Patents

Abstract

Usage: pumping media, reversibly increasing their yield strength under the influence of a magnetic field. SUMMARY OF THE INVENTION: the rotor is mounted on the shaft cantilever and made of non-magnetic material at the same time with a separator, the channels for supplying and discharging the medium are made in the rotor, the housing is made of magnetic material. 2 ill.

Description

The invention relates to mechanical engineering, in particular to pumps, and can be used for pumping media that reversibly increase their yield strength in a magnetic field, for example magnetorheological suspensions (MPC).

Pumps and pumping systems exist for pumping media containing magnetic materials. The disadvantage of such devices is the low overpressure that they can develop.

The closest in technical essence is a pump for pumping magnetic fluids, containing a cylindrical housing in which the magnetic field inductor is located, a rotor mounted concentrically relative to the housing on the drive shaft with the formation in the housing of a closed annular cavity in which, with relative displacement, the separator is placed , sealing elements and channels for supplying and discharging the working medium, made on both sides of the separator. A disadvantage of the known power device

design and the inability to pump magnetorheological suspension.

The aim of the invention is to expand the functionality by providing the possibility of pumping magnetorheological suspensions and simplifying the design of the pump.

This goal is achieved by the fact that the rotor is mounted on the shaft cantilever and made of non-magnetic material integral with the separator, the channels for supplying and discharging the working medium are made in the rotor on both sides of the separator, and the housing is made of magnetic material.

Figure 1 shows an axial section of a pump; figure 2 is a section aa in figure 1.

The pump for magnetorheological suspensions contains a cylindrical housing 1 in which a magnetic field inductor 2 is placed, a rotor 3 mounted on the drive shaft 4 concentrically with respect to the housing with the formation of a closed annular cavity 5 in the housing in which a separator 6, sealing elements 7 and supply channels 8 and allotment 9 of the working medium, made on both sides of section VI

00 00 CO (L

litel. In this case, the separator is made of non-magnetic material. and the case is made of magnetic.

The pump operates as follows.

The magnetic field inductor 2 is connected to a voltage source (not shown) and either the housing 1 with the fixed shaft 4 is rotated or the shaft 4 is rotated with the fixed housing 1. The voltage on the inductor 2 leads to the appearance of a magnetic field in the cavity 5. Due to the magnetorheological effect, the yield strength of the suspension located in the cavity is increased and prevents its flow along the cavity 5. But since the separator 6 tends to move the suspension during its movement, a pressure drop appears on its surface. leading to the leakage of the suspension from the housing 1 through the outlet channel 9. A separate zone is created behind the separator 6 and its rotation, since the suspension located with the housing cannot move until the yield strength is overcome. In the discharge region, the suspension is sucked in from the outside through the supply channel 10. Thus, if the pressure exerted by the separator 6 on the suspension does not exceed its yield strength for a given magnetic field strength, then when the separator 6 moves along the cavity 5, the suspension does not move relative to the housing 1, but is scraped off by the separator 6 into the exhaust channel 9. The ultimate pressure developed by the pump , is determined by the yield strength of the suspension, and so on, depends on the voltage of the magnetic field in the cavity 5, and, consequently, on the voltage on the inductor 2. Changing the voltage on the inductor, it is possible with uniform rotation of the drive the igniter to receive any modulation of pressure and expense at the exit

.Pump.

The proposed pump is a reversible hydraulic machine, i.e. can be used as a hydraulic motor.

The technical advantages of the claimed pump are as follows: simplicity of design, any modulation of the output pressure and flow rate at constant revolutions of the rotation drive.

Formula A pump for magnetorheological suspensions, comprising a cylindrical housing in which a magnetic field inductor is placed, a rotor mounted concentrically relative to the housing on the drive shaft and forming a closed annular cavity in the housing in which with the possibility of relative movement is placed the separator, sealing elements and channels for supplying and discharging the working medium, made on both sides of the separator, characterized in that, in order to expand the functionality of the put we provide

the possibility of pumping magnetorheological suspensions and simplifying the design of the pump, the rotor is mounted on the shaft cantilever and made of non-magnetic material integral with the separator, the channels for supplying and discharging the working medium are made in the rotor on both sides of the separator, and the casing is made of magnetic material.

Editor

Compiled by A. Luk Novich,. ..-, Tehred M. Morgenthal Corrector S. Baker

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VNIIIPI of the State Committee for Inventions and Discover at the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Rauska nab, 4/5