SU1537880A1 - Method of assessing the quality of jet atomization by jet nozzle - Google Patents

Abstract

The invention allows for improved measurement accuracy. Record the impact of a jet of fuel on the force sensors, placed at least in two points along the axis of the jet, differently distant from the nozzle. A signal is extracted in the ultrasound region of the sensor's natural frequency and the magnitude of the signal amplitude is measured. As an estimated parameter, the ratio of the measured amplitude values at these points is taken. 1 il.

Description

(21) 4306100 / 25-06

(22) 09/14/87

(46) 01/23/90. Bul N 3

(71) State All-Union Scientific and Research Technological Institute for the repair and maintenance of machine and tractor fleet

(72) V.I.Danilov, V.I.Solovev and A.L. Mashkin

(53) 621.436.038 (088.8)

(56) USSR author's certificate

V 1305425, class F 02 M 65/00, 1985.

(54) METHOD FOR ASSESSING THE QUALITY OF JETS JETS WITH JETS (57) The invention improves the accuracy of measurement. Record the impact of a jet of fuel on the force sensors, placed at least in two points along the axis of the jet, differently distant from the nozzle. A signal is extracted in the ultrasound region of the sensor's natural frequency and the magnitude of the signal amplitude is measured. The ratio of the measured amplitude values at these points is taken as the estimated parameter. 1 il.

The invention relates to the field of mechanical engineering, in particular to engine building, and can be used in testing fuel injection equipment.

The purpose of the invention is to improve the measurement accuracy.

The drawing shows a device for implementing the method.

The device contains a stand 1 on which the nozzle 2 and the casing 3 are fixed. In the casing 3 brackets 4 are fixed with sensors 5 located opposite the respective nozzle openings of the nozzle 2. Sensors 5 are placed in brackets 4 with the possibility of moving along a given jet displacement from 10 mm and more.

The registration and assessment of the quality of spray jet by the nozzle 2 is carried out using connected in series with sensors 5

between the amplifier 6, the bandpass filter 7 and the recorder 8.

As a force sensor, a piezoelectric accelerometer can be used, the natural frequency of which is located in the ultrasonic region.

The method is implemented as follows.

When fuel is supplied from a reference pump (not shown) through the nozzle 2, the jet acts on the sensitive element of the corresponding jet force sensor 5, the signal from which, passing the gr through amplifier 6, band-pass filter 7, is recorded on the recorder 8. The signal is extracted using a band-pass filter 7 in the ultrasonic region of the natural frequency of the sensor. In this case, the amplitude of the sensor signal is recorded directly at the exit of the sprayer at a distance of 10 mm, and then the sensor is moved to a greater

(L

SP

oo 1

00 00

the distance within the jet length and the estimate of the quality of sawing the jet are determined by the ratio of the amplitudes of the sensor signals obtained at two points and comparing the obtained ratio of the amplitudes with the corresponding reference value.

Claims (1)

Claims The method of assessing the quality of a spray jet by a nozzle, which consists in recording the effect of a jet of fuel on a force sensor, extracts a signal in the frequency domain. five characteristics of the sensor and measure the magnitude of the signal amplitude, and the quality of spilling is determined by comparing the estimated parameter with a standard, characterized in that in order to improve the measurement accuracy, the signal is extracted in the ultrasonic region of the sensor's natural frequency, the amplitude is measured at least two points along the jet axis distant from the nozzle, and the ratio of the measured amplitude values at these points is taken as the estimated parameter.