SU1328573A1 - Device for measuring displacement of spring-loaded needle of atomizer - Google Patents

Abstract

The invention makes it possible to increase the measurement accuracy and can be used to diagnose the technical condition of diesel injectors. The device for moving the needle contains a microwave generator (UHF) 5 and a sensor 7 connected with it using a coaxial line 6. The latter is made in the form of a segment of a rigid coaxial line 6 with the inner and outer conductors 11 and 12 and has a metal disk 13. To the second input The microwave generator is connected to the input of the microwave phase shifter 10. The wavelength of the microwave generator is chosen longer than the critical wavelength for cavity 4 of spring 3. The use of the beyond wavelength of microwave oscillations for a natural waveguide in cavity 4 provides It determines the localization of the microwave energy at disk 13 and the minimal effect of spring 3 on the signal. Signal / interference ratio increases. Using a controlled microwave phase shifter, the phase of the reference signal is adjusted so that the highest sensitivity of the device corresponds to the beginning of the movement of the rod 2. 1 sludge. (O (l so o 00 ate oo

Description

The invention relates to the field of engine building, in particular, testing of engine fuel equipment, and can be used to diagnose the technical condition of diesel injectors.

The aim of the invention is to improve the measurement accuracy, which is ensured by an increase in the sensitivity and selectivity of the sensor due to the use of the extreme wavelength of the microwave oscillations for a natural waveguide — the cavity of the injector spring and the use of an aluminum disk sensor.

The drawing shows a block diagram of the device.

A device for measuring the movement of the needle (not shown) of the nozzle 1, loaded through the rod 2 by the spring 3, which is - 11O in the cavity 4, contains an ultra-high-frequency (UHF) generator 5 and a sensor 7 connected to it using a coaxial line 6 and coaxially with the cavity 4 of the spring 3, as well as the detector 8 and the analyzer 9. The first output of the microwave generator 5 is connected to the sensor 7 and the first input of the detector 8, and the second output to the second input of the detector 8, the output of which is connected to the analyzer 9. The device is equipped with a controlled microwave phase shifter 10, and the sensor to 7 is made in the form of a segment of a rigid coaxial line 6 with internal 11 and 12 conductors and is equipped with a metal disk 13, electrically isolated from the nozzle, to which the sub-key) internal conductor M, and the external conductor; 12, is connected to the nozzle L Microwave input -phaser 10 is connected to the second output of the microwave-ge1; erato () a 5, and the output to the second input of the detector 8. Wavelength (LZCH-gperaratorg: 5 b1 -: ban than to |) the actual wavelength for the cavity four

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The device works as follows.

When the microwave-tenor at 5 is switched on, electromagnetic oscillations pass along a coaxial line; line 6 and into the cavity 4; 3. Moving the rod;) 2) the running () of the nozzle 1 callByst change of electrical or magnetic NW; and -1 between sensor 7 and reflective node of rod 2, i.e. change of phase-amplitude characteristics and reflection signal. As a result, on the mix.

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five

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The torus 8 is separated by a low-frequency modulated signal, which is a function of the movement of the rod 2, and consequently, the needles of the nozzle 1.

The use of the extreme wavelength of the microwave oscillations for the natural waveguide in the cavity 4 of the spring 3 ensures the localization of the microwave energy of the metal disk 13 of the sensor 7 and the minimal effect of the spring 3 on the signal. This allows an increase in the signal-to-noise ratio and an increase in measurement accuracy. With the help of a controlled microwave phase shifter 10, the phase of the reference signal is adjusted so that the highest sensitivity of the device (maximum slope of the detector 8) corresponds to the beginning of the movement of the rod 2.

The use of an ultrasonic microwave phase shifter together with a sensor made in the form of a segment of a rigid coaxial line, the inner conductor of which is connected to the metal (the disk and the outer one to the nozzle, improves the sensitivity and selectivity of the sensor). measurements.

Claims (1)

Invention Formula A device for measuring the movement of a spring-loaded needle: a nozzle fitted with a spring cavity, containing a microwave generator and associated with it using a coaxial line sensor placed inside and coaxially with the spring cavity, as well as a detector and analyzer, the first output of the microwave generator the torus is connected to the sensor and the first input of the detector, and the second exit to the second input of the detector, the output of which is connected to the analyzer, characterized in that the device is equipped with a controlled S.VCh Phase schatelem and the sensor is configured as a section of rigid coaxial line with an inner and outer conductors and provided with a metal disc is electrically insulated from the nozzle, to which podklyucheg. the inner conductor and the outer conductor are connected to the nozzle, the input of the microwave phase shifter is connected to the second output of the microwave generator, and the output to the second input of the detector, and the wavelength of the microwave generator is chosen longer than the critical wavelength for the spring cavity.