SU1060243A1 - Apparatus for testing injectors - Google Patents

Abstract

A FORMER TEST DEVICE, comprising a housing with a clamp for installing a nozzle and a nickname for cutting a liquid mounted rotatably about a vertical axis of the clamp, a receiver with a capillary tube, dattax pressure drop and a SLIVNELECH valve, which is designed to increase the accuracy of determining the irregularity of the spraying of the fluid and the acceleration of the tests in the housing under the receiver of the liquid to be rationed, a fluid collector fixedly mounted with the receiver and communicated atmosphere, wherein the receiver is mounted reflecting Tel.

Description

The invention relates to devices for hydraulic testing of nozzles to determine the unevenness of squeezing a liquid. And can be used in aircraft engine building and engine building.

A device for testing nozzles is known to determine the unevenness of the liquid flow, consisting of a housing with a clip installed therein for installing the nozzle and a fixed multi-compartment receiver, sections of which are in communication with the measuring capacitances ij.

There is a poor measurement accuracy due to the fact that the receiver has a finite number of sections and is fixed relative to the nozzle. As a consequence, a change in the location of the nozzle plume relative to the receiver sections leads to non-repeatable measurement results (the unevenness coefficient K is within 25%).

The closest to the proposed technical essence and the achieved result is a device for testing nozzles containing a housing with a clip for mounting and receiving a sawn liquid, mounted for rotation around the vertical of the ICD clip, a receiver with a capillary tube, a differential sensor, pressure and drain valve 2j,

A disadvantage of the known device is a decrease in the accuracy of measuring the unevenness of atomization of the liquid due to the possible accumulation of air in the hydraulic system due to its closeness in the area from the receiver to the receiver. Air trapped by a rotating receiver together

with fluid, creates air traps, and affects the accuracy of measurement results. In order to restore accuracy, it is necessary to stop testing and drain the air from the system, which leads to an increase in test time and a decrease in production performance.

The purpose of the invention is to improve the accuracy of measurement of fluid atomization nonuniformity and test acceleration.

This objective is achieved in that the Nozzle Test Device, comprising a body with a clip for installing the nozzle and a receiver for the liquid to be disintegrated, is rotatably mounted relative to the vertical axis of the clip, a receiver with a capillary tube, a differential pressure sensor and a drain valve, in the housing under the receiver. the fluid is fixedly mounted a fluid collector connected to the receiver and communicated with the atmosphere, with a reflector mounted on the receiver.

In the known device, air is freely released from the collection to the atmosphere, and the presence of a reflector prevents the ingress of liquid that is not involved in the measurement.

The device comprises a housing 1 with a clip 2 attached to it for mounting the nozzle 3, a receiver 4 for the sprayed liquid, a receiver 5 with a capillary tube b, a differential pressure sensor 7 and a drain valve 8, a fluid collector 9 connected by tube 10 with a receiver 5, and a reflector 11 mounted on the receiver 4.

The device works as follows.

Part of the liquid sprayed by the nozzle 3, fixed by clip 2 in body 1, is picked up by driemnikm 4, rotates inside the collector 9 around the vertical axis of the clip 2, the stack ei into the collector 9 fixedly mounted in the housing 1 and communicated with. the atmosphere.

Due to this, the air trapped with the sprayed liquid by the receiver 4 is measured and does not affect the measurement results. The reflector 11, mounted on the receiver, prevents the ingress of liquid that is not involved in the measurement process,

8the lower part of the fixed collection

9 created some constant level of fluid — a mirror of the fluid due to the elevation of the tube 10 above the bottom of the collector 9. The fluid's liquid mirror provides for the quenching of dynamic disturbances that occur when the fluid drains from the rotating receiver 4

From collector 9, the liquid enters through tube 10 into receiver 5. Tube 10 and receiver 5 are communicating vessels, and a constant initial level in them is created by installing valve 8 in receiver 5. Inclining tube 10 ensures a smooth flow of fluid into receiver 5 and em 15-25. The liquid entering the collector 9 is poured into the tube.

10 and gradually fills it, starting from the initial level. In the empty part of the tube 10, the liquid flows as if it were a channel that provides. free air outlet from it through the collector 9.

As tube 1Q is filled up, the level of liquid E of receiver 5 increases and air is displaced from it through capillary tube 6. The amount of air displaced through capillary tube 6 is proportional to the amount of fluid entering the receiver 5 and therefore proportional to the distribution of flow in torch nozzles.

The amount of air (water flow) flowing through the capillary tube 6 is determined by the magnitude of the pressure drop across it and measured by pressure drop sensor 7. After the receiver 4 completes one full turn around the nozzle, the drain valve 8 opens and the liquid is poured from receiver 5. A non-measuring cycle is terminated and the device is ready for the next measurement.

The use of the pre-shmvgtu 4 "e of the acquisitions allows the sign of" 1st "ethn1 & noSMfcMTb the accuracy of determining the uneven distribution of fluid in the torch of the centrifugal nozzle and the information content of the tests, to obtain unambiguous dependencies of the distribution of specific flows and reduce the time spent on testing, i.e. improve installation performance.

At the same time, the accuracy of measuring the magnitude of the coefficient of nonuniformity K is no more than 4–3% {compared to ± 5% of the prototype device).

Claims (1)

. ' A NOZZLE TEST DEVICE, comprising a housing with a clamp for mounting the nozzle and a receiver of the liquid to be sprayed, mounted for rotation about the vertical axis of the clamp, • a receiver with a capillary tube, differential pressure sensor and drain valve, characterized in that, in order to improve the accuracy of determining unevenness liquid atomization and acceleration tests in the case under the receiver sawn liquid fixedly mounted collection of fluid, connected ^- with a receiver and a message weatherp swarm, at; than on the receiver mounted reflector * * · ·, tel.