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An anti-jamming design method for uncontrolled sounding rockets

A technology for sounding rockets and design methods, applied in control/adjustment systems, non-electric variable control, three-dimensional position/course control, etc., capable of solving problems such as ballistic performance deviations

Active Publication Date: 2019-05-03
NAT UNIV OF DEFENSE TECH
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Problems solved by technology

[0003] In order to solve the problem of ballistic performance deviation of uncontrolled sounding rockets, the present invention proposes an anti-jamming design method for uncontrolled sounding rockets. The method determines the engine thrust characteristics, quality characteristics, stability and margin to reduce such ballistic performance deviations, reduce mission and detection mission risk, and reduce debris impact spread

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  • An anti-jamming design method for uncontrolled sounding rockets
  • An anti-jamming design method for uncontrolled sounding rockets
  • An anti-jamming design method for uncontrolled sounding rockets

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Embodiment Construction

[0078] The specific implementation of the method will be further described below in conjunction with the accompanying drawings, taking a certain meteorological sounding rocket as an example.

[0079] The flow chart of a kind of uncontrolled sounding rocket anti-jamming design method that the present invention proposes is as follows figure 2 shown.

[0080] Step 1: Select the anti-interference design variables;

[0081] Rocket static stability and engine thrust are selected as anti-jamming design variables.

[0082] Step 2: Build a six-degree-of-freedom simulation model

[0083] According to the technical solution in the content of the invention, a six-degree-of-freedom model including various deviations and disturbances is built, such as image 3 shown.

[0084] Step 3: Determine the value of the design variable

[0085] According to the initial design parameters of a meteorological sounding rocket, the change trend of the full ballistic static stability margin can be ob...

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Abstract

The invention provides an anti-interference design method for an uncontrolled sounding rocket, in order to reduce the performance dispersion of task loading release points and wreckage falling points of a sounding rocket. The method comprises the following steps: (1) selecting static stability of rocket body and engine trust as anti-interference design variables; (2) confirming a trajectory performance deviation rule by simulating and establishing a trajectory model at six degrees of freedom; (3) confirming the values of the anti-interference design variables; (4) confirming a launching condition. According to the method, the process of simulating the trajectory at six degrees of freedom is adopted for confirming the engine thrust coefficient, quality coefficient and stability margin of the rocket body, so that trajectory performance deviation is reduced, the risks of flight mission and detection task are reduced and the dispersion of the wreckage falling points is reduced. According to the method, the trajectory performance deviation of the uncontrolled sounding rocket is effectively reduced under the condition of hardly increasing the cost. The method is suitable for the overall design of the uncontrolled sounding rockets, such as, various sounding rockets and rocket projectiles.

Description

technical field [0001] The invention belongs to the technical field of aircraft overall design, and mainly relates to a method for determining the overall index of a rocket proposed in order to reduce the performance distribution of a mission load release point of a sounding rocket and a drop point of a rocket wreckage. Background technique [0002] Sounding rockets are an indispensable and effective tool for space exploration and scientific experiments, and have achieved a large number of application results in the fields of meteorological detection, space environment detection, biological experiments, and verification of new space technologies. For detection tasks that require the use of parachutes for load recovery, the dynamic pressure at the task load release height should meet the parachute opening requirements, and for detection tasks that do not require parachute recovery, the speed, height, and attitude requirements of the task load should be met. However, due to th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05D1/10
CPCG05D1/10G05D1/107
Inventor 江振宇虞建利张士峰孙乐园杨枝山
Owner NAT UNIV OF DEFENSE TECH
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