SU1659753A1 - Installation for measuring thrust of inclined nozzle in multinozzle unit - Google Patents

Abstract

The invention relates to measuring devices and can be used in assessing the quality of nozzle blocks with several oblique nozzles for jet engines, such as anti-hail rockets. The purpose of the invention is to provide a measure of the magnitude and direction of the lateral components of a single nozzle pull in multi-nozzle blocks. The device comprises a cantilever gas supplying pipeline, a support, a meter of th gi, weights. A cantilevered gas supply pipeline is installed vertically and at one end attached to a support equipped with a load cell and connected to the base by flat springs; from the nozzles was its continuation. The lower part of the socket is made in the form of a rectangle, with two of the adjacent sides of which displacement meters are in contact, and with the other two, graduating devices. 1 il. (Ls

Description

The invention relates to measuring devices and can be used in assessing the quality of nozzle blocks with several oblique nozzles for jet engines, for example, anti-hail rockets.

The purpose of the invention is to expand the functionality of the installation by measuring the lateral components of the thrust.

The drawing shows a diagram of the device.

The device consists of a base 1, on which a support 2 is fixed, equipped with a force meter 3. The support is attached to the base by means of flat springs 4. A pipeline 5 of a compressed gas system is attached to the side surface of the support. A cannon gas supply line 6 is vertically mounted on the support, and the nest 7 is fixed on its upper end. The bottom part 8 of the nest is made in the form of a square, with two mutually perpendicular sides. we are in contact with displacement sensors 9, and with the other two - calibration devices 10. Two clamps are fastened on the nest. Fixer f t, on which the nozzle block 12 is installed

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so that its axis is parallel to the axis of the gas supplying pipeline, and the retainer 13, by means of which one of the nozzles 14 of the unit is installed so that it is a continuation of the gas supplying pipeline.

The installation works as follows.

The tested nozzle unit is installed in the socket. Calibration of the force-measuring device 3 and displacement meters 9 is performed. Compressed gas is supplied to the pipeline 6. This causes a thrust force, which is measured by a force-measuring device 3, and the pipeline 6 with the socket 7 deviates from the vertical position due to the lateral component t gi. The deviation of the pipeline is recorded with the aid of gauges 9. The lateral and vertical components of the thrust are determined by graduations and the required nozzle parameters are calculated. Turn the nozzle block and test the following nozzle. When performing the control tests, it is possible to set the maximum permissible values of deviations of the pipeline 16 with the socket 7 and the calculation is not performed.

The use of the device makes it possible to evaluate the quality of the nozzle blocks prior to the assembly of anti-hail rockets and to eliminate the ingress of defective blocks to the assembly, and this, in turn, will increase the safety of anti-hail rockets in densely populated areas.

Claims (1)

Claims of the invention An installation for measuring the inclination nozzle pull in multi-nozzle blocks, comprising a base, a support with a gas conduit fixed on it. a pipeline and a force measuring device, characterized in that, in order to expand the functionality by measuring the lateral components of the pull, it is provided with a socket, two displacement sensors, two graduation devices, a nozzle lock, a multi-nozzle block lock, and flat springs, In this case, the gas line is vertically installed and connected through a support to the load cell. A socket is placed in the upper part of the gas line, in which a multi The base unit can be rotated around its axis, parallel to the axis of the gas pipeline, the outlet of which is aligned with the inlet of the nozzle fixed by means of a corresponding clamp, the lower part of the socket is made in the form of a rectangle, two of which are adjacent to the calibration devices, and the other two are with displacement sensors, and the support is fixed to the base with the help of flat springs. Editor I. Segl Nick Compiled by N.Vovchuk Tehred M. Morgental e 7V J Compressed Air Proofreader L. Beskid