SU1418521A1 - Pulser - Google Patents

Abstract

Invention m. used as a source for specifying disturbances during dynamic testing of various hydraulic units or systems. The purpose of the invention is to provide a harmonic form of flow oscillations in the HJH high frequency range of specified air flows. The rotor 4 is installed along the axis of the housing 1 and is made in the form of a truncated cylinder. The output channel 3 is made in the form of a right angled area on the lateral surface of the housing, uniformly perforated with identical but geometrical dimensions with holes 6 of circular shape. The longitudinal axes of the holes are oriented but the radius of Kopiiys. Equal dimensionality of the disposition of the openings 6 and their orientation along the radii of the housing allows for an even supply of fluid to the openings 6 and eliminating their interaction. 2 Il. (L 4. 00 C71 to

Description

The invention relates to power engineering and hydraulics and can be used as a source for specifying disturbances I when conducting dynamic tests I of various hydraulic assemblies or systems. I The purpose of the invention is to provide a harmonic form of flow oscillations in the wide frequency range of the perturbed disturbances.

opens and closes part of the openings 6. During one revolution of the rotor 4, the total area of the openings 6 is harmoniously changed from the minimum to the maximum value. Due to the fact that the fluid from the cavity of the housing into the output channel 3 doesn’t flow through the slot, as in the known device, but through tens of holes 6, which are equal in area and are identical in shape.

FIG. 1 shows the design of the pul-Q geometry. are calibrated and scator; in fig. 2 shows section A-A in FIG. 1. have constant flow rates ju,

The pulsator contains a cylindrical housing 1 with an inlet 2 and an outlet 3 channels and a rotor 4 mounted along the axis of the housing 1 connected to the drive shaft 5. The output to the fluid flow through the pulsator is determined only by the number of open holes 6. This number of holes 6 determines the current total The area of the channel 3 is made in the form of a perforated-15 flow section of the pulsator and varies

a circular section, the openings 6 of which are made in circular shapes 1.

The rotor 4 can be installed in the intermediate sleeve 7, mounted in the housing

according to the harmonic law with the rotation of the rotor having the shape of a truncated cylinder. Consequently, the total flow through the proposed pulsator varies according to

perforated section is made in JQ harmonic law.

In this case, the o-ring top of the sleeve 7. The axial holes of the small holes 6 are oriented along the radius of the housing 1. The length of the arcs of the near-angled portion of the ne should exceed half the length of the rotor arc 4.

The depth L of the holes 6 must be chosen - 25 SI in accordance with the dimensions of their diameter d, namely L / d 3.5-4.0. In this case, each hole 6 has a full cross section. The flow rate of each individual hole 6 can be improved by skru | sloth input edges. The total area of the holes 6 should be less than the cross-sectional area of the channels 2 and 3, i.e. perforated area should be the narrowest section in the flow path of the n; n, sator.

Pulsator works as follows.

After the fluid is supplied through the inlet drip 2 into the cavity of the pulsator and its filling, the rotor 4 is driven into rotation. The rotating rotor 4 with its spring surface

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The uniformity of the arrangement of the openings 6 and their orientation along the radii of the housing 1 makes it possible to ensure an even supply of fluid to the openings 6 and to exclude their mutual interaction with each other.

Claims (1)

Invention Formula A pulsator containing a cylindrical cornus with inlet and outlet channels and a rotor mounted along the axis of the housing and made in the form of a truncated cylinder, characterized in that, in order to provide a harmonic flow rate oscillations in the wide frequency range of the specified disturbances, the output channel is made in the form of a rectangular area on the lateral surface of the housing, uniformly perforated with holes of circular shape with identical dimensions, the longitudinal axes of which are oriented along the radius. opens and closes part of the openings 6. During one revolution of the rotor 4, the total area of the openings 6 is harmoniously changed from the minimum to the maximum value. Due to the fact that the fluid from the cavity of the housing into the output channel 3 doesn’t flow through the slot, as in the known device, but through tens of holes 6, which are equal in area and are identical in shape. then the flow rate through the pulsator is determined only by the number of open holes 6. This number of holes 6 determines the current total area according to the harmonic law when the rotor is rotated in the shape of a truncated cylinder. Consequently, the total flow through the proposed pulsator varies according to harmonic law. The uniformity of the arrangement of the openings 6 and their orientation along the radii of the housing 1 makes it possible to ensure an even supply of fluid to the openings 6 and to exclude their mutual interaction with each other. Invention Formula A pulsator containing a cylindrical cornus with inlet and outlet channels and a rotor mounted along the axis of the housing and made in the form of a truncated cylinder, characterized in that, in order to provide a harmonic flow rate oscillations in the wide frequency range of the specified disturbances, the output channel is made in the form of a rectangular area on the lateral surface of the housing, uniformly perforated with holes of circular shape with identical dimensions, the longitudinal axes of which are oriented along the radius. 2