SU879021A1 - Apparatus for measuring positive-suction head of pump - Google Patents

Description

STI, made in the form of a hollow cascade 3 with a fairing 4, having a transverse partition 5 inside; with a central hole 6 and OHai6 KeHHbiM on the periphery on the entrance side with a swirler connected to the cavity nozzle 3 and made in the form of tangential channels 7 in the body nozzle 3. Nozzles 3 on the side of the outlet has a central and peripheral ports 8 and 9, communicating the cavity of the nozzle 3 in accordance with a differential pressure sensor 1 and a source 10 of low pressure. The sections of the tangential channels 7 are connected to the tube 11 of the polyuretic pressure, which are fitted with adjustable throttles 12. The tubes AND are located in the inlet pipe 2 of the axes. As a source of low pressure 10, an ejector connected to a collector 13 can be used, combining 1; tangential channels 7 to it.

The device works as follows.

A drop in pressure drop provided by the SOURCE1N-K01M 10 1LOW pressure, the working fluid through the full-pressure pipes 11 flows into the tangential canals 7, where it twists and, moving further by inertia, forms the stable nozzle 3 in the cavity, with a pressure of “asyestry vapor”, forming a stable vapor cavity with pressure “inertness”, forming a steady vapor cavity with pressure “inertness”. the temperature of the liquid in the inlet pipe 2 of the pump. Further, the fluid from the cavity of the asadka 3 through the tangential channels 7 and the collector 13 is discharged either into the atmosphere (if the inlet pressure is more than atmospheric) or is discharged using special means (if the output pressure is less than atmospheric). The pressure of the liquid vapor in the cavity of the nozzle 3 through the central opening 8 is supplied to the differential pressure sensor 1, to which on the other hand the full pressure of the liquid is supplied through the pipe 11 into the hole through our opening 6. In this case, the differential pressure sensor 1 directly measures pressure difference (full and saturated vapor), which

when known, the density of the working fluid is equivalent to the cavitation reserve of the pump.

Improving the accuracy of measuring the cavitation reserve of the pump is based on averaging the temperature of the fluid in the cross section of the inlet nozzle 2, which is produced by taking the inlet nozzle 2 from different radii and then first mixing it inside the nozzle 3, which is done in such a device.

Claims (2)

1. A device for measuring the cavitation of the pump's stock, containing its differential pressure sensor and a pressure sensor for saturated vapor of the working fluid installed in the pump inlet, made in the form of a hollow nozzle with a fairing having a transverse partition inside the central part with hand entrance swirl communicated with the cavity the nozzle, and on the outlet side - central and peripheral holes communicating the nozzle cavity, respectively, with a differential pressure sensor and a low pressure source, characterized in that, in order to increase the accuracy of the measurement by averaging the working fluid temperature in the volume flow, in the cross-section of the inlet nozzle, the swirler is made in the form of tangential channels in the body of the nozzle, to the inlet sections of which the full-pressure pipes located in the inlet pipe are connected. 2. The device according to claim 1, characterized in that, in order to change the hydraulic resistance of the tubes, the latter are equipped with adjustable throttles. Sources of information taken into account in the examination 1. USSR author's certificate in application N «2470422/06, cl. F 04 D 10/00, 1977.