Double wall cooling structure with transverse corrugated impingement orifice for vectoring nozzle

A technology of vector nozzle and cooling structure, applied in jet propulsion, machine/engine, etc., can solve the problems of increasing impact distance and uneven thermal stress of corrugated heat shield

Inactive Publication Date: 2021-09-10
NORTHWESTERN POLYTECHNICAL UNIV
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  • Abstract
  • Description
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Problems solved by technology

This structure can solve the contradiction between reducing the impact distance in order to enhance heat transfer, but increasing the impact distance in order to reduce flow resistance, and at the same time solve the problem of uneven thermal stress of the corrugated heat shield

Method used

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  • Double wall cooling structure with transverse corrugated impingement orifice for vectoring nozzle
  • Double wall cooling structure with transverse corrugated impingement orifice for vectoring nozzle
  • Double wall cooling structure with transverse corrugated impingement orifice for vectoring nozzle

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Embodiment Construction

[0020] see figure 1 — Figure 8 , the present invention proposes a novel double-walled cooling structure 8 with transverse corrugated impact orifice plate for the nozzle, as attached figure 2 shown. This structure can solve the contradiction between reducing the impact distance in order to enhance heat transfer, but increasing the impact distance in order to reduce flow resistance, and at the same time solve the problem of uneven thermal stress of the corrugated heat shield. The double-walled cooling structure 8 is jointly composed of a two-dimensional transverse corrugated impact plate 2 and a flat air film orifice plate 1 . The air film orifice plate 1 on the gas side constitutes the inner wall of the vector nozzle cylinder, and the inner side is the main gas duct 6 of the vector nozzle; the corrugated impact orifice plate 2 on the cold air side and the outer wall surface 3 together form the cold air duct 7; the cooling air from the compressor The air flow B flows backwa...

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Abstract

The invention uses a transverse corrugated impingement plate and a flat air film plate to form a double-wall cooling structure. Both the impact holes and the air film holes are distributed in fork rows; the impact holes are arranged at the troughs of the corrugated impact orifice plate, and the air film holes on the air film orifice plate are arranged at the crests of the corrugated impact orifice plate; the corrugated impact orifice plate Both the air film orifice plate and the air film have a multi-unit periodic structure in the axial direction. A small impact distance is formed between the wave trough and the air film orifice plate, which can enhance the impact heat transfer, and a large space can be formed between the wave crest and the air film orifice plate, which is conducive to the full development of the cold air flow and the outflow, which can reduce the flow It improves the utilization rate of cold air, and solves the contradiction between reducing the impact distance in order to enhance heat transfer, but increasing the impact distance in order to reduce flow resistance. At the same time, the air film panel is a flat plate, which is conducive to the attachment of the air film, forms effective thermal protection, reduces thermal stress, and solves the problem of uneven thermal stress of the corrugated heat shield.

Description

technical field [0001] The invention belongs to the field of cooling of aero-engine vectoring nozzles, and is also used for cooling of engine combustion chambers and afterburner heat shields, in particular to a double-layered transverse corrugated impact orifice plate for vectoring nozzles wall cooling structure. Background technique [0002] The vector nozzle plays an important role in improving the maneuverability of the aircraft. The temperature of the gas in the nozzle can reach above 2000K. Let it cool. Since the cooling air of the nozzle is extracted from the compressor of the engine, this part of the cold air will not be able to participate in the entire thermal cycle of the engine, which will reduce the thermal efficiency and thrust of the engine. Therefore, when designing a high-performance nozzle, it is necessary to achieve as much as possible It is possible to achieve a higher cooling effect with less cold air. [0003] The double-walled cooling structure is an...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F02K1/82
Inventor 郭涛谢龙刘存良母鸿瑞罗红飞
Owner NORTHWESTERN POLYTECHNICAL UNIV
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