SU553512A1 - Stand for aerodynamic testing of fans - Google Patents

Description

This invention relates to a fan construction and concerns the aerodynamic testing of fans, preferably low pressure.

A stand for aerodynamic testing of fans is known, comprising a suction chamber with an adjustable choke, a grating and mixed collectors for measuring the flow rate 1.

The bench has significant pressure loss and low measurement accuracy when testing low-ion fans.

Also known is a steed for aerodynamic testing of fans, containing a cylindrical suction chamber with an adjustable inlet throttle and leveling grid, measuring instruments with capacity and static pressure sensors, and a test fan 2 installed behind the chamber.

This stand is the closest to the invention according to the technical essence and the achieved result.

However, this steid is also difficult to maintain and has a large size due to the installation of an additional supercharger.

The aim of the invention is to simplify the design and improve the accuracy in measuring the parameters of low-pressure fans.

This goal is achieved by opening holes in the chamber wall behind the grille, evenly located around the circumference, the axes of which have an acute angle to the flow etching in the chamber, and the tested fan is installed in a replaceable gear by performing a saddle, and the choke is made as of the device with the opposite direction of the wrope of the neighboring loiatok, and the sensors are installed in the outlet of the kame) section.

1 is a diagram of FIG. 2 - camera stick with a hole. The steid contains 1 t cyl.

suction 1 with an adjustable choke 2 at the entrance leveling grid 2. In the wall of the suction chamber 1, holes 4 are made evenly circumferentially, the axes of which have an acute angle to the direction of flow in the chamber. On the steak of the suction chamber 1, in the area of the openings 4, there are seals 5 and a device for blocking the openings 4, iaimer as a ring 6.

The bench is equipped with measuring probes 7 with sensors of static pressure 8 and the manufacturer 1 and 9, installed in the outlet cross section of the suction chamber 1. As a static pressure sensor it can be

used, for example, induction

3

small pressure drops, and as a sensor of productivity and - grid hot-wire anemometer.

An interchangeable adapter made in the form of a nozzle 10 with the test fan I is attached to the suction chamber 1. The adjustable choke 2 is made in the form of a rotary blade apparatus with opposite direction of rotation of the adjacent blades, thus avoiding the flow swirling and simplifying the flow leveling devices.

The stand works as follows.

The test fan 11 is driven into rotation, the required static pressure is set in the suction chamber 1 by rotating the throttle blades 2, and the volume flow through the fan is determined. According to the test results, the aerodynamic characteristics of the fan are constructed, in particular, the pressure dependence on the volumetric performance. Having holes 4 in the suction chamber 1 reduces the resistance to air flow, as it bypasses the choke 2 and leveling grille 3, while the measurement accuracy is not reduced. If it is necessary to determine the maximum static pressure, the openings 4 may be blocked.

Thus, making holes allows to simplify the design due to the failure of the pressurization fan when testing low-pressure fans. The use of interchangeable adapters, made in the form of a nozzle, ensures the absence of turbulence in the sensor installation area, improves the measurement accuracy and reduces the dimensions of the stand.

Claims (3)

1. Stand for aerodynamic testing of fans, containing a cylindrical suction chamber with an adjustable inlet throttle and leveling grid, measuring instruments with sensors of productivity and static pressure, and a test fan installed behind the camera, characterized in that improving the accuracy in measuring parameters of low pressure fans, in the chamber wall behind the grille, there are holes evenly spaced around the circumference, the axes of which have an acute angle to the direction of flow in the chamber, and the test fan is installed in a replaceable adapter designed as a nozzle. 2. A stand according to claim 1, characterized in that the choke is made in the form of a blade apparatus with the opposite direction of rotation of the adjacent blades. 3. Stand on PP. 1 and 2, characterized in that the sensors are installed in the output section of the chamber. Sources of information taken into account in the examination: I. M.P. Kalinushkin “Fan plants, 1967, p. 183. 2. Copyright certificate N ° 384038, G 01M 9/00, 1973. fu 2