The utility model content
The purpose of this utility model be to overcome the prior art astronomical telescope accurately the localizing objects celestial body, can not realize the technical matters of automatic star-seeking function, a kind of automatic searching target celestial body is provided and drives the area image identification location astronomical telescope system of this target celestial body of pointing of the telescope.
For realizing above purpose, the utility model has been taked following technical scheme: a kind of area image identification location astronomical telescope system, the big visual field camera chain and the astronomical telescope that comprise mutual coaxial setting, and the processor computing system that is electrically connected with big visual field camera chain, in described processor computing system, be integrated with and be used to receive big visual field camera chain content of shooting, and store the reservoir of the celestial body Name ﹠ Location information of selecting for the user in advance, also comprise with the processor computing system being electrically connected, be used for driving the driver of described astronomical telescope according to the relation of the information of selecting celestial body and initial position.
By absorbing celestial body in certain spatial domain with the photography inductor of finding a view of optical axis with astronomical telescope, accept the star chart comparison identification of back in storer by inductor, the azimuth information at center, spatial domain obtains photographing, thereby confirm the positional information that present astronomical telescope points to, be decided to be position in fact by microprocessor processes in the processor computing system, thereby data according to various celestial bodies in the reservoir, automatically seek the target star, and, make astronomical telescope point to this target by the motor in the driver drives astronomical telescope system.Thereby realize telescope automatic star-seeking function.
The utility model compared with prior art has following advantage:
1, by native system, can realize telescope location and can store the name and the positional information of celestial body automatically, the user is only with finding the celestial body name, and can drive telescope and look for target;
2, accurate location once, that avoids repeatedly locating is loaded down with trivial details;
But but 3, both also starry sky photographies of starry sky location;
4, can photograph coaxial big visual field, and the camera chain of chronophotography content; With the photography content through information processing and with reservoir in positional information analysis draw the analytic system of picked-up spatial domain positional information; Positional information identification can be located, and the driving telescope points to this position automatically; According to location, photography carrying out spatial domain, big visual field, and drive the target star that telescope is sought user's appointment automatically.
Embodiment
Below in conjunction with the drawings and specific embodiments content of the present utility model is described in further details.
Embodiment:
See also Fig. 1 to shown in Figure 2, a kind of area image identification location astronomical telescope system, the big visual field camera chain 1 and the astronomical telescope 2 that comprise mutual coaxial setting, and the processor computing system 3 that is electrically connected with big visual field camera chain 1, in processor computing system 3, be integrated with and be used to receive big visual field camera chain 1 content of shooting, and store the reservoir 31 of the celestial body Name ﹠ Location information of selecting for the user in advance, the spatial domain that big visual field camera chain 1 is aimed at is consistent with the center of astronomical telescope range of observation, simultaneously big visual field camera chain 1 is transferred to content of shooting the reservoir 31 of processor computing system 3, processor computing system 3 receives big visual field camera chain 1 and passes behind the image of coming according to the calculating of comparing of system's stellar map, confirm the picture centre directional information, because big visual field camera chain 1 is consistent with astronomical telescope 2 coaxial directional informations, so processor computing system 3 as locating information, is confirmed the telescope initial position; Also comprise with processor computing system 3 driver 4 that is electrically connected, is used for driving described astronomical telescope 2 according to the relation of the information of selecting celestial body and initial position; Processor computing system 3 sends signal to driver 4, according to the information of selecting celestial body and the relation of initial position, drives astronomical telescope 2 and points to the sensing that the user selects celestial body.
Above-listed detailed description is at the specifying of the utility model possible embodiments, and this embodiment is not in order to limiting claim of the present utility model, does not allly break away from the equivalence that the utility model does and implements or change, all should be contained in the claim of this case.