CN201965303U - Astronomic telescope for recognizing and positioning regional images - Google Patents

Abstract

The utility model discloses an area image recognition and positioning astronomical telescope system, which comprises a large field of view photography system and an astronomical telescope arranged coaxially with each other, and a processor computing system electrically connected with the large field of view photography system. The computing system is integrated with a memory for receiving the shooting content of the large field of view photography system and pre-storing the name and position information of the star for the user to choose. and the relationship of the initial position to drive the astronomical telescope drive. Through this system, the automatic positioning of the telescope can be realized and the name and position information of the star can be stored. The user only needs to find the name of the star and can drive the telescope to find the target; accurate positioning at one time avoids the cumbersome positioning of multiple times; it can be used for both starry sky positioning and positioning astral photography.

Description

A system of regional image recognition and positioning astronomical telescope

technical field

The utility model relates to an astronomical telescope system, in particular to an area image recognition and positioning astronomical telescope system.

Background technique

Due to the large number of stars in the starry sky, ordinary users cannot accurately remember the coordinate information of the stars. The traditional astronomical telescope system needs to manually adjust the direction to indicate the position of the specific starry sky. Bring inconvenience in use.

Utility model content

The purpose of the utility model is to overcome the technical problems that the existing astronomical telescope cannot accurately locate the target star and realize the automatic star-seeking function, and provide an astronomical telescope that automatically finds the target star and drives the telescope to point to the area of the target star. system.

In order to achieve the above purpose, the utility model adopts the following technical solutions: a regional image recognition and positioning astronomical telescope system, including a large field of view photography system and an astronomical telescope arranged coaxially with each other, and a camera electrically connected to the large field of view photography system The processor computing system is integrated with a memory for receiving the shooting content of the large field of view photography system and pre-storing the star names and position information for the user to select in the processor computing system, and also includes the processor computing system Electrically connected, used for driving the driver of the astronomical telescope according to the relationship between the information of the selected star and the initial position.

The framing photography sensor with the same optical axis as the astronomical telescope captures the stars in a certain space, and compares and identifies them with the star map in the memory after receiving them by the sensor to obtain the azimuth information of the center of the photographic space, thereby confirming the current pointing position of the astronomical telescope The information is processed by the microprocessor in the processor computing system to determine its actual position, so that it can automatically find the target star according to the data of various stars in the storage, and drive the motor in the astronomical telescope system through the driver to make the astronomical telescope point to the target . So as to realize the automatic star-finding function of the telescope.

Compared with the prior art, the utility model has the following advantages:

1. Through this system, the automatic positioning of the telescope can be realized and the name and location information of the star can be stored. The user only needs to find the name of the star and can drive the telescope to find the target;

2. Accurate positioning at one time, avoiding the cumbersome positioning of multiple times;

3. It can be used for both starry sky positioning and starry sky photography;

4. A photography system that can coaxially take pictures with a large field of view and record the photography content; analyze the photography content through information processing and analyze it with the location information in the storage to obtain the location information of the ingested airspace; can identify and locate the location information, And drive the telescope to automatically point to this position; perform airspace positioning based on large-field photography, and drive the telescope to automatically find the target star specified by the user.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is a schematic diagram of the utility model.

Detailed ways

The content of the present utility model will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

Example:

Please refer to Fig. 1 to Fig. 2, a kind of regional image recognition and positioning astronomical telescope system includes a large field of view photography system 1 and an astronomical telescope 2 coaxially arranged with each other, and a processor electrically connected with the large field of view photography system 1 The computing system 3 is integrated with the processor computing system 3 and is used to receive the shooting content of the large field of view photography system 1 and store the names of stars and position information for the user to select in advance. The large field of view photography system 1 pair The accurate airspace is consistent with the center of the observation range of the astronomical telescope. At the same time, the large field of view photography system 1 transmits the shooting content to the storage 31 of the processor computing system 3, and the processor computing system 3 receives the information transmitted by the large field of view photography system 1. After the image is compared and calculated according to the star image of the system, the pointing information of the image center is confirmed. Because the coaxial pointing information of the large-field photography system 1 and the astronomical telescope 2 are consistent, the processor computing system 3 uses this as the positioning information to confirm the initial position of the telescope. ; Also includes the driver 4 that is electrically connected with the processor computing system 3 and is used to drive the astronomical telescope 2 according to the relationship between the information of the selected star and the initial position; the processor computing system 3 sends a signal to the driver 4, according to the information of the selected star In relation to the initial position, the astronomical telescope 2 is driven to point to the direction of the star selected by the user.

The above detailed description is a specific description of the feasible embodiment of the utility model. This embodiment is not used to limit the patent scope of the utility model. Any equivalent implementation or change that does not deviate from the utility model shall be included in this case within the scope of the patent.

Claims (1)

1. the astronomical telescope system is located in an area image identification, it is characterized in that: 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 described 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, also comprise with processor computing system (3) being electrically connected, be used for driving the driver (4) of described astronomical telescope (2) according to the relation of the information of selecting celestial body and initial position.

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