RU2117926C1 - Testing objects of aviation equipment and gear for its implementation - Google Patents

Abstract

FIELD: aviation engineering. SUBSTANCE: process testing objects of aviation equipment consists in conducting of simultaneous change of parameters of air in pressure up to altitude of 32 km, in temperature from real value of it up to -95 C, in relative humidity in range from 100 to 0.1%. Gear foe implementation of this process has testing chamber and systems changing pressure, temperature and humidity of air with heater and vacuum pump. System changing air humidity is manufactured in the form of dehumidifying and humidity recording units with coiled pipes placed into liquid nitrogen communicating with testing chamber and intercommunicating. EFFECT: enhanced accuracy of testing thanks to approximation of testing conditions to operational ones. 2 cl, 2 dwg

Description

 The invention relates to tests of aircraft and can also be used to test the performance of ground products in extreme conditions.

 A known method and test device, which consists in cyclic impact on the test object, placed in the test chamber, temperature, pressure and humidity.

The disadvantage of the prototype is the lack of verification under the combined effects of temperature, pressure and air humidity for flight altitudes of up to 32 km, cycling over the entire life of the aircraft (1200 times). There is no check for limit values in the lower stratosphere: for temperatures up to -95 ^o C, relative humidity up to 0.1% at maximum heights.

 The aim of the invention is to improve the accuracy of tests by approximating the test conditions to operational.

This goal is achieved by the fact that in the test method, which consists in cyclic exposure of the test object located in the test chamber, temperature, pressure and humidity, the temperature in the test chamber is changed to -95 ^o C, pressure - to a pressure corresponding to the pressure at a height 32 km and air humidity in the range from 100 to 4 ^o C0.1%.

 This goal is achieved by the fact that in a device containing a test chamber connected to systems for changing temperature, pressure and humidity with a heater and a vacuum pump and recording equipment, the system for changing air humidity is made in the form of dehumidifying and moisture-recording devices with coils placed in liquid nitrogen associated with the input of the test chamber through the heater and with its output, and between them through the bypass pipe located outside the test chamber, while Flowmeter output coil set.

 In FIG. 1 shows a schematic diagram of a device for implementing the test method; in FIG. 2 - dehumidification and moisture recording device.

 The test method can be carried out using a device containing a drying and recording moisture source gas device 1, a dried gas heater 2, a test chamber 3, another device 4 that records humidity in the chamber, a gas flow meter 5, a vacuum pump 6 with setting the medium pressure vacuum gauge 7. Coils 8 and 9 of devices 1 and 4, located in liquid nitrogen 10, pass gas into and out of the chamber, as well as through the bypass pipe 11.

 The device operates as follows.

Through the test chamber 3 heated to 120 ± 10 ^° C, the working gas (air) is preliminarily dried, which has previously been dried in a known industrial way. Subsequent drying of it to the dew point value determined by the formulas is carried out with liquid nitrogen with a temperature of -196 ^o C in the coils 8 and 9 of device 1. The operating mode is set by running the gas through the bypass pipe 11. The gas dried to the required value enters the heater 2, then through the test chamber 3, drying it, and the device 4. The coil 9 of the device 4 determines the humidity in the test chamber 3. The subsequent rarefaction of the medium is carried out by a vacuum pump 6 using a vacuum gauge 7. Additional heating or cooling can carried out to regulate the speed of detected processes.

Absolute humidity is calculated by dividing the amount of frozen water in the coils of one control device by the missed volume of gas (air) for the same period of time. Since weighing and volume measurement can be done with modern equipment to any desired accuracy, the humidity in the chamber 3 can be set to any desired value, for example, at a dew point of -196 ^o C.

Claims (2)

1. The method of testing objects of aviation technology, which consists in cyclic impact on the test object located in the test chamber, temperature, pressure and humidity, characterized in that in order to improve the accuracy of tests by approximating the test conditions to operational temperature in the test chamber is changed to - 95 ^o C, pressure - to a pressure corresponding to a pressure at an altitude of 32 km and air humidity in the range from 100 to 4 ^o C 0.1%.  2. A device for implementing the test method, comprising a test chamber associated with temperature, pressure and humidity change systems with a heater and a vacuum pump, and a recording apparatus, characterized in that in order to increase the test accuracy by approximating the test conditions to the operational humidity change system air is made in the form of dehumidifying and moisture-recording devices with coils placed in liquid nitrogen connected to the inlet of the test chamber through heating spruce, and with its output, and with each other - through a bypass conduit arranged outside the test chamber, while the outlet flow meter coil set.

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