RU2142343C1 - Hydraulic impulse generator - Google Patents

Abstract

FIELD: forest industry, applicable for generation of impulsive liquid flows, for example, for cleaning surfaces of various shape. SUBSTANCE: the valves in the impulse generator are made in the form of flat plates executing reciprocating motion in the plane perpendicular to the direction of action of dominating forces of liquid hydrostating pressure ann actuated by a reciprocating-pushing device, engageable with the valves. The reciprocating-pushing device is made as a rotary shaft with ellipsoid plates secured on it. The larger axis of the plates is positioned at angle α to the shaft axis, and the smaller one is positioned at a right angle. The smaller axis of each subsequent plate is shifter relative to the previous one by a certain angle. The mechanical trajectory of the valves is preset by guides, for example, by grooves. The plates engageable with the valves may make up part of the ellipsoid. EFFECT: enhanced reliability of operation at formation of impulse jets in a chain of unlimited quantity of nozzles installed in a row, reduced force for displacement of valves, eliminated impacts of load on valves, provision of preset program of their actuation. 5 cl, 2 dwg

Description

 The invention relates to the forest industry and can be used to create impulsive fluid flows, for example, for cleaning surfaces of various shapes.

 Known hydraulic impulse containing a housing with outlet openings in the front plate with nozzles overlapping a disk plate with outlet openings connected to the rotor and turbine A.S. 1389863, cl. B 05 B 1/08, 1986

 The known hydraulic impulse does not provide processing of surfaces that are significant in length, since it requires the use of a large number of devices and the processing productivity is reduced due to the fact that the angles of attack of the generated jets do not lie in the optimal range, which significantly increases energy loss.

 Known hydraulic impulse containing a housing with outlet openings with nozzles that are overlapped by needle valves associated with the system of the cam hall and rocker A.S. 1131544, class B 05 B 1/08, 1983.

 The disadvantages of the known hydraulic pulse are leaks resulting from deformations of the valve-seat seating as a result of shock loads acting on the valve, significant efforts to open the valves due to the coincidence of the direction of movement of the valves with the direction of action of the dominant forces of hydrostatic and hydrodynamic fluid pressure.

 These disadvantages are eliminated by the fact that the valves in the hydraulic impulse are made in the form of flat plates reciprocating in a plane perpendicular to the direction of action of the dominant forces of hydrostatic and hydrodynamic pressure of the liquid, and driven by a reciprocating device engaged with the valves.

 The proposed hydraulic impulse can improve the reliability of operation when generating impulse jets in a chain installed in a row of an unlimited number of nozzles, reduce the effort to move the valves, eliminate stress on the valve, provide a given program for their operation.

 In the patent and scientific and technical literature, we did not find such a design of a hydraulic pulse generator.

 In FIG. 1 shows a hydraulic pulser; in FIG. 2 is a section AA of FIG. 1.

 The hydraulic pulse includes a housing 1 with holes 2 made therein with nozzles overlapping valves 3, which are engaged with a reciprocating device located in the cavity 4 of the housing 1 and made in the form of a shaft 5 with ellipsoid plates 6, the major axis of which is installed at an angle α to the axis of the shaft 5, and small - at right angles. The minor axis of each subsequent ellipsoid plate 6 is offset relative to the previous one by a certain angle.

 Hydropulse works as follows.

 Liquid under pressure is supplied into the cavity 4 of the housing 1 and is discharged through the outlet openings 2 with nozzles periodically opening by valves 3. When the shaft 5 rotates, the ellipsoid plates 6 provide reciprocating movement of the valves 3 in a plane perpendicular to the direction of the dominant forces of the hydrostatic and hydrodynamic pressure of the fluid due to their fixing at an angle to the axis of the shaft 5. The magnitude of the stroke of the valves 3 depends on the angle α, and their predetermined program response is provided by the displacement of the minor axis of each subsequent ellipsoid plate 6 relative to the previous one by a certain angle. The valve path is defined by guiding devices, for example, grooves, and the plates that mesh with the valves can form part of the ellipsoid in order to ensure a given duty cycle of the fluid pressure pulsation process.

 The proposed hydraulic impulse can improve the reliability of the formation of pulse jets in a chain installed in a row of an unlimited number of nozzles, reduce the effort to move the valves, eliminate shock loads on the valves, provide a given program for their operation.

Claims (5)

 1. Hydroimpulsator comprising a housing with outlet openings with nozzles that are overlapped by valves, characterized in that the valves are made in the form of flat plates that reciprocate in a plane perpendicular to the direction of action of the dominant forces of hydrostatic and hydrodynamic pressure of the liquid and are driven back - a pushing device engaged with the valves.  2. The hydraulic impulse according to claim 1, characterized in that the reciprocating device is made in the form of a rotating shaft with ellipsoid plates fixed to it, the major axis of which is located at an angle α to the axis of the shaft, and the small axis is at a right angle.  3. The hydraulic impulse according to claims 1 and 2, characterized in that the small axis of each subsequent plate is offset relative to the previous one by a certain angle.  4. The hydraulic impulse according to claim 1, characterized in that the valve path is defined by guiding devices, for example grooves.  5. Hydroimpulsator according to claims 1 and 2, characterized in that the plates that engage with the valves can form part of the ellipsoid.

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