SU1060823A1 - Pulse generator - Google Patents

Abstract

A PULSE GENERATOR, comprising a housing with a working cavity and a lid, a hydraulic motor with a Segner-type rotor wheel mounted in the working cavity, an alternating throttle choke and fluid inlet and outlet channels, characterized in that, in order to expand the range of pulsation parameters, the alternating choke choke The slit is made of a nozzle-flap type, the throttle nozzle is installed in the housing with the possibility of axial movement perpendicular to the axis of rotation of the rotor, and the throttle flap is made in the form of milled surface of the rotor, and the supply channel is made in the form of an axisymmetric jet element, one, but from the nozzles of which is installed in the housing cover, and the other - in the rotor. (L O5 O CX5 KD O9

Description

The invention relates to devices for creating flow pulsations in hydraulic lines, for example, when determining the frequency characteristics of control systems, and can be used in hydraulic and pneumatic drives of vibratory machines.

Known hydraulic pulsator, consisting of two coaxial disks with through holes, forming a variable flow orifice, one disk is the rotor of a hydraulic turbine and is driven by the energy flowing through the fluid pulsator, the other is fixed motionless [I].

The disadvantage of this device is its limited functionality, since it is impossible to change the ripple frequency regardless of the flow rate of the liquid through the throttle.

Closest to the invention in technical essence is a pulse generator, comprising a housing with a working cavity and a cover, a hydraulic motor with a rotor of the Segner wheel type installed in the working cavity, a variable flow orifice, and channels for supplying and discharging liquid [2].

The disadvantage of this device is the inability to change the frequency regardless of flow rate and use the device in low-cost lines and a small resource.

The aim of the invention is to expand the range of regulation of ripple parameters.

The goal is achieved by the fact that in a pulse regenerator containing a housing with a working cavity and a cover, a hydraulic motor with a rotor of the Segner wheel type installed in the working cavity, a variable flow orifice and fluid inlet and outlet channels, an alternating flow inductor. the cross-section is made of the nozzle-damper type, the throttle nozzle is installed in the housing with the possibility of axial movement perpendicular to the axis of rotation of the rotor, and the throttle damper is made in the form of a profiled rotor surface, and the feed channel is made in the form of an axisymmetric jet element, one of the nozzles of which is installed in the housing cover and the other in the rotor.

/ I -A

In FIG. I shows a pulse generator; in FIG. 2 is a section AA in FIG. I.

The pulse generator contains a housing I with a working cavity 2 and a cover 3, a hydraulic motor (not indicated) with a rotor of the Segner wheel type 4, channels 5 and 6 for supplying and discharging liquid, a variable orifice of a nozzle-damper type (not indicated), whose nozzle 7 is installed in the housing I, and the shutter 8 is made on the profiled surface of the rotor 4, the channel 5 is connected with the nozzle 9 installed in the cover 3 and the nozzle 10 installed in the rotor 4 of the hydraulic motor. The rotor 4 is made with an internal cavity 11 and tangential openings 12. The rotor 4 can also rotate from an external drive through a coupling half 13.

The pulse generator operates as follows.

When the fluid is supplied to the supply channel 5, the fluid through the nozzles 9 and 10 enters the inner cavity 11 of the rotor 4. When it expires through the tangential holes 12, a moment is created that rotates the rotor 4. When the rotor 4 rotates, the gap between the shutter 8, which is the profiled surface of the rotor, changes 4, and the nozzle 7, as a result of which the pressure in the working cavity 2 changes and pulsations appear in the channel 6 of the fluid outlet. The ripple frequency depends on the number of revolutions of the rotor 4 and its surface profile, and the amplitude depends on the diameter of the nozzle 7 and the surface profile of the rotor 4.

By changing the flow rate of the fluid through the hydraulic motor, it is possible to change the pulsation frequency over a wide range, leaving the flow rate through the channel 6, in which these pulsations created, unchanged.

The use of an inkjet element for supplying fluid to a hydraulic motor and the implementation of a variable flow orifice type throttle. nozzle-flap will allow to eliminate contact pairs of friction and increase the service life. The nozzle-damper type throttle has a strictly defined dosing cross-sectional area, therefore, using a small diameter nozzle 7, a pulse generator can be used to create pulsations in low-flow lines.

fig 2

V-NIIIPI Subscription

Circulation 71 7 Order 9999/35

Branch of PPP "Patent",

Uzhhorod, st. Design. 4

Claims (1)

A PULSE GENERATOR, comprising a housing with a working cavity and a cover, a hydraulic motor with a rotor of the Segner wheel type, mounted in the working cavity, a variable orifice orifice and fluid inlet and outlet channels, characterized in that, in order to expand the range of regulation of pulsation parameters, a variable orifice orifice the section is made of the nozzle-damper type, the throttle nozzle is installed in the housing with the possibility of axial movement perpendicular to the axis of rotation of the rotor, and the throttle damper is made in the form of profiles ovannoy rotor surface, wherein the feed passage is in the form of an axisymmetric jet element, one of the nozzles is installed in the housing cover, and the other - in the rotor.