Unilateral multi-output testing device for thermal insulation layer of rocket engine
A technology of a rocket engine and a test device, which is applied in the direction of engine testing, jet engine testing, gas turbine engine testing, etc., can solve the problems of high test cost, large difference, low precision of ablation performance parameters, etc., to shorten the test time, The effect of reducing fuel consumption and reducing test costs
Pending Publication Date: 2022-03-11
北京星河动力航天科技股份有限公司 +2
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Problems solved by technology
[0004] 1. The test environment is quite different from the real working environment, and the accuracy of the ablation performance parameters obtained by the test is low;
[0005] 2. A single test is limited to the ablation of a single insulation layer specimen, and it is difficult to reproduce the same high-precision test environment by using divided tests for different types (for example, different types, or different batches, etc.) of insulation layer specimens , that is, the accuracy of the ablation performance parameters of each insulation layer specimen obtained through the batch test in the same test environment is low;
[0006] 3. A single test is limited to the ablation of a single insulation layer specimen. The fuel and time consumed by each test can only obtain the ablation performance parameters of one insulation layer specimen, and the test cost is high
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[0052] Such as figure 1 As shown, the liner unit 200 of the embodiment of the present application includes: a liner body 210 , and a first connecting flange 220 and a second connecting flange 230 respectively located at two ends of the liner body 210 .
[0053] The inner wall of the tail pipe body 210 is used for detachable connection with the heat insulation layer test piece 400 .
[0054] The first connection flange 220 is detachably connected to the test engine unit 100 .
[0055] The second connecting flange 230 is detachably connected to the nozzle unit 300 .
[0056] In this embodiment, the liner barrel 210 is a hollow cylindrical structure, which can provide a real test environment inside the tailpipe for the thermal insulation layer test piece 400, and the inner wall of the liner barrel 210 can correspondingly carry different types of thermal insulation layer test pieces. 400.
[0057] The first connecting flange 220 and the second connecting flange 230 can facilita...
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The embodiment of the invention provides a single-side multi-output testing device for a heat insulating layer of a rocket engine. The single-side multi-output testing device comprises a testing engine unit which is provided with a combustion chamber and an output end; the output end is provided with at least two gas channels; the combustion chamber is used for generating a real fuel gas environment for simulating a rocket engine; one end of each tail pipe unit is detachably connected with the test engine unit, is communicated with the corresponding fuel gas channel, and is used for correspondingly bearing different types of heat insulation layer test pieces and forming the same test environment; and each spray pipe unit is detachably connected to one end, far away from the test engine unit, of the corresponding tail pipe unit. According to the embodiment of the invention, different types of heat insulation layer test pieces can be in the same test environment in the channels on the premise of multiple channels, the assessment precision is improved, and the test cost is reduced.
Description
technical field [0001] The present application relates to the technical field of solid rocket motor testing, and in particular, the present application relates to a single-sided multiple-exit testing device for a thermal insulation layer of a rocket motor. Background technique [0002] The heat insulation layer is a key component of the solid rocket motor, which protects the shell from heat, ensures that the shell is not burned through or loses strength due to heat, protects the shell from corrosion of the grain, and buffers the gap between the grain and the shell. Bonding stress, for the filament wound casing, can also ensure the airtightness of the filament wound casing. Therefore, it is necessary to conduct an ablation test of the insulation layer to assess its ablation resistance. [0003] However, the existing ablation test methods for adiabatic layer generally have the following defects: [0004] 1. The test environment is quite different from the real working enviro...
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IPC IPC(8): G01N31/12G01M15/02G01M15/14
CPCG01N31/12G01M15/02G01M15/14
Inventor 刘百奇张胜敏刘建设肖波李伟杨向明
Owner 北京星河动力航天科技股份有限公司