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Collimation control device and collimation control method

A technology of control signals and feedback signals, applied in the field of signal positioning, can solve the problems of missiles being interfered and unable to locate

Active Publication Date: 2015-09-02
BEIJING INST OF SPACE LAUNCH TECH +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In view of this, the embodiment of the present invention expects to provide a collimation control device and method, which can at least solve the technical problems such as being unable to locate due to interference during the missile positioning process

Method used

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  • Collimation control device and collimation control method
  • Collimation control device and collimation control method
  • Collimation control device and collimation control method

Examples

Experimental program
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Embodiment 1

[0045] In order to solve technical problems such as being unable to locate due to interference during the missile positioning process, an embodiment of the present invention provides a collimation control device, such as figure 1 As shown, the device of this embodiment includes:

[0046] Feedback unit 101 is used to feed back optical signals; feedback unit 101 is a planar rectangular prism in the missile aiming window, used to reflect the laser signal sent by the photoelectric sight;

[0047] The signal transmitting and receiving unit 102 is located on the photoelectric collimator and is used to transmit an optical signal, and receives the feedback signal corresponding to the optical signal sent by the feedback unit; the signal transmitting and receiving unit 102 is located on the photoelectric collimator and has a laser emitting devices and devices that receive feedback signals;

[0048] The alignment state monitoring unit 103 is used to monitor the residence time of the fee...

Embodiment 2

[0059] This embodiment and Embodiment 1 belong to the same inventive concept, therefore, each unit and subunit in Embodiment 1 is also applicable to this embodiment. This embodiment provides a collimation control method, such as figure 2 As shown, the method in this embodiment includes:

[0060] Step S201: monitoring the dwell time of the feedback signal during the collimation control process;

[0061] The feedback signal is fed back to the signal transmitting and receiving unit 102 by the feedback unit 101 according to the optical signal of the signal transmitting and receiving unit 102, and can reflect the current state of the collimation control. The dwell time of the feedback signal directly reflects the degree of external interference received by the feedback unit 101, specifically including:

[0062] Step S2011: monitoring the feedback signal;

[0063] The feedback signal is an optical signal, and a device sensitive to optical signals can be used to monitor the feedb...

Embodiment 3

[0073] The present invention will be described in detail below through an actual scene.

[0074] The wind swing situation is an interference situation that is often encountered in missile positioning. The present invention will be described below by taking the measurement of a certain missile with a photoelectric collimator in the wind swing situation as an example. Feedback unit 101 is a planar right-angle prism in the missile aiming window; signal transmitting and receiving unit 102 is an objective lens and a semi-transparent half-reflective prism on the photoelectric collimator; collimation state monitoring unit 103 can be realized by CCD; Realized by a processor; the signal sampling unit 105 is realized by an analog-to-digital converter (Analog to Digital Converter, A / D converter); the control signal generating unit 106 is realized by a second processor; the operating unit 107 is realized by a motor. Among them, the feedback unit 101 and the operation unit 107 belong to th...

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Abstract

The invention discloses a collimation control device, comprising a feedback unit, a signal transmitting and receiving unit, a collimation state monitor unit, an operation condition selection unit, a signal sampling unit, a control signal generation unit and an operation unit. The feedback unit is used for feeding back an optical signal. The signal transmitting and receiving unit is used for transmitting the optical signal and receiving a feedback signal which is corresponding to the optical signal and which is sent by the feedback unit. The collimation state monitor unit is used for monitoring dwell time of the feedback signal on the signal transmitting and receiving unit to obtain dwell time. The operation condition selection unit is used for selecting an operating mode according to the dwell time. The signal sampling unit is used for sampling the feedback signal to obtain a sample signal according to the operating mode. The control signal generation unit is used for obtaining a control signal according to the sample signal. The operation unit is used for controlling the feedback unit according to the control signal. The invention also discloses a collimation control method.

Description

technical field [0001] The invention belongs to the technical field of signal positioning, and in particular relates to a collimation control device and method. Background technique [0002] When the missile is launched, it is necessary to locate the missile in order to control the missile to strike the target. When locating the missile, it is necessary to set up photoelectric collimator and other equipment on the ground, so that the photoelectric collimator is aimed at the aiming window in the missile, and the plane rectangular prism in the aiming window will reflect back the laser emitted by the photoelectric collimator to realize collimation control . Ideally, the laser emitted by the photoelectric collimator will coincide with the laser reflected by the plane rectangular prism or have a small error, that is, meet the collimation control requirements; after a certain period of sampling calculation, according to the known position information of the photoelectric collimat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S7/495
CPCG01S7/495
Inventor 张书明贺永喜苏辛麻广林王超王岩孙煜姜华丁爽王振兴
Owner BEIJING INST OF SPACE LAUNCH TECH