Miniature large-field-of-view laser fuze transmitting-receiving optical system
A technology for receiving optical systems and optical systems, which is applied in optics, fuzes, near-fire fuzes, etc., can solve the problem of increasing the cost of optical systems and the difficulty of assembly and adjustment, complex processing of aspherical mirrors and V-column mirrors, and can not meet the needs of engineering and other problems, to achieve the effect of strong anti-interference ability, small size and high detection accuracy
Inactive Publication Date: 2017-05-10
SHANGHAI RADIO EQUIP RES INST
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However, from the perspective of engineering, the processing of aspheric mirrors and V-shaped column mirrors is very complicated, which greatly increases the cost of the optical system and the difficulty of assembly and adjustment, and does not meet the needs of engineering
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[0025] The following combination Figure 2 to Figure 7 , a preferred embodiment of the present invention is described in detail.
[0026] Such as image 3 As shown, the miniaturized large-field-of-view laser fuze transceiver optical system provided by the present invention is composed of three transmitting optical systems 10 and three receiving optical systems 20, which are arranged in sequence in the circumferential direction, and each transmitting optical system 10 is connected with Each receiving optical system 20 is adjacently arranged alternately (that is, both sides of each transmitting optical system 10 are receiving optical systems 20, and both sides of each receiving optical system 20 are also transmitting optical systems 10). The included angle between the central optical axes of two adjacent transmitting optical systems 10 is 120°, and the included angle between the central optical axes of two adjacent receiving optical systems 20 is 120°.
[0027] In addition, in...
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The invention relates to a miniature large-field-of-view laser fuze transmitting-receiving optical system. The miniature large-field-of-view laser fuze transmitting-receiving optical system is composed of three transmitting optical systems and three receiving optical systems; the three transmitting optical systems and the three receiving optical systems are arranged in series in a circumferential direction; each transmitting optical system and each receiving optical system are arranged adjacently and alternately; an included angle between the central optical axes of two adjacent transmitting optical systems is 120 degrees; an included angle between the central optical axes of two adjacent receiving optical systems is 120 degrees; in an arc vector direction, each transmitting optical system uses a 120-degree transmitting field of view, and each receiving optical system uses a 120-degree transmitting field of view; and in a meridian direction, each transmitting optical system uses a 1-degree transmitting field of view, and each receiving optical system uses a 2-to-8-degree receiving field of view. With the miniature large-field-of-view laser fuze transmitting-receiving optical system of the invention adopted, laser fuze can perform large-field-of-view, circumferential and leakage-free detection on any target, and a requirement for the miniaturization of the laser fuze is satisfied. The miniature large-field-of-view laser fuze transmitting-receiving optical system has the advantages of accurate target positioning, high detection precision and strong anti-interference capability.
Description
technical field [0001] The invention relates to an optical system for sending and receiving by using a laser fuze, in particular to a miniaturized and large field of view laser fuze sending and receiving optical system, which belongs to the field of laser fuzes. Background technique [0002] Laser fuze is a new type of fuze that uses laser beams to detect or perceive targets, and determines the optimal detonation time of missile warheads by analyzing target echo signals. The working principle of its transmission and reception is as follows: figure 1 As shown in Fig. 1, the laser is first made to emit light through the electric pulse signal, and then the laser beam is shaped by the transmitting optical system, so that the shaped laser beam radiates to the space according to the requirements of the emission pattern, and diffuse reflection echoes are generated when the target is detected The signal is collected to the photosensitive surface of the detector through the receivin...
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IPC IPC(8): G02B27/00F42C13/02
CPCG02B27/00F42C13/02
Inventor 高洁刘锡民
Owner SHANGHAI RADIO EQUIP RES INST
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