CN201054698Y - Positioning capturing and tracking device - Google Patents

Abstract

The utility model relates to the technology field of the positioning capture system, in particular to a positioning capture tracking device. The device at least includes a positioning photographic lens and an automatic zoom photographic lens. The two lenses are connected by a micro-processor; the positioning photographic lens and the automatic zoom photographic lens are both arranged on a rotary bracket, and the rotation angle and the zooming actions of the automatic zoom photographic lens are all controlled by the micro-processor; the micro-processor has a display and a measurement conversion system. The positioning photographic lens takes the photograph, and transits the photographic image to the micro-processor. The micro-processor calculates the coordinates of the object via measurement, and outputs instruction to the automatic zoom photographic lens. The automatic zoom photographic lens executes zooming and angle adjusting according to the coordinate parameters provided by the micro-processor, and captures or videotapes the clear object. And then the clear object can be observed on the display. The utility model has the advantages that the structure is simple, the usage is convenient, and the monitoring efficacy is improved.

Description

Follow-up mechanism is caught in the location

Technical field:

The utility model relates to location capture system technical field, refers in particular to a kind of location and catches follow-up mechanism.

Background technology:

Development along with electronics technology, the product of some digital image monitoring occurs in succession, as be used for cameras such as security monitoring and traffic monitoring, by camera capture or video recording after pass on the microprocessor of Surveillance center, and can with display that microprocessor is connected on check.These products are in actual use, and the focus that candid photograph or video recording often occur is incorrect, and causes resulting not fogging clear, though can carry out image at microprocessor amplifies, but have fuzzyly, and thereby very easily lose key feature, be unfavorable for monitoring work.

Summary of the invention:

It is a kind of simple in structure that the purpose of this utility model is to provide, and can select the location to focus on automatically, and follow-up mechanism is caught in the location that gets a distinct image.

For achieving the above object, the utility model is achieved through the following technical solutions:

Follow-up mechanism is caught in the location, it comprises a location phtographic lens and an autozoom phtographic lens at least, connect by microprocessor between two camera lenses, positioning radiography camera lens and autozoom phtographic lens all are installed on the rotating turret, and the action of the rotational angle of autozoom phtographic lens and zoom is controlled by microprocessor; Microprocessor has display and measures conversion system.

Adopt said structure, the utility model is by the photography of positioning radiography camera lens, and send photographs to microprocessor, microprocessor converses the coordinate of this target through measurement, and give the autozoom phtographic lens by the microprocessor output order, the autozoom phtographic lens carries out zoom and angle adjustment according to the coordinate parameters that microprocessor provides, thereby captures or the object clearly of recording a video by the autozoom phtographic lens, thereby can observe object clearly on display.Simple in structure, easy to use, improve the monitoring effect.

Description of drawings:

Accompanying drawing 1 is the utility model structural representation.

Background technology:

Below in conjunction with accompanying drawing the utility model is described further:

See shown in the accompanying drawing 1, follow-up mechanism is caught in location described in the utility model, at least comprise a location phtographic lens 10 and an autozoom phtographic lens 20, connect by microprocessor 30 between two camera lenses, positioning radiography camera lens 10 and autozoom phtographic lens 20 all are installed on the rotating turret, realize rotation work, and the rotational angle of autozoom phtographic lens 20 and zoom action are by microprocessor 30 controls; Microprocessor 30 has display and measures conversion system.

Positioning radiography camera lens 10 is used for the localizing objects thing, after its photography gained image is passed to microprocessor 30, converses the coordinate of object by the measurement conversion system of microprocessor 30, and this method is referred from measuring instrument, as optical gauge.The utility model can adopt one or more positioning radiography camera lenses 10, a plurality of positioning radiography camera lenses 10 a plurality of objects of can photographing simultaneously, and store into thus in the microprocessor 30.Microprocessor 30 sends to autozoom phtographic lens 20 after conversing the coordinate of object one by one again, autozoom phtographic lens 20 carries out autozoom and adjusts angle according to the coordinate parameters of microprocessor 30 outputs, autozoom phtographic lens 20 is captured or the video recording object subsequently, thereby obtaining distinct image passes back in the microprocessor 30, promptly can observe object clearly at display, also can wait and check (this function all exists in the supervisory control system at present) carrying out the image amplification on the display certainly.

The utility model is to take or the mode of video recording is finished by first location again, and autozoom phtographic lens 20 is to take or record a video according to the object coordinate of microprocessor 30 outputs, improves the accuracy and the definition of photographing thus.

Autozoom phtographic lens 20 in the utility model rotates and can drive by stepping motor, and stepping motor is then by microprocessor 30 controls.The zoom of autozoom phtographic lens 20 is control automatically, regulates automatically according to the coordinate figure of microprocessor 30 outputs.Microprocessor 30 can be purchased by the market, is ordinary processor, as being widely used in the processor of supervisory control system at present.

The utility model design concept is that measuring technique and monitoring technique are united two into one, and catches tracing product thereby obtain novel location, improves monitoring effect, especially security monitoring.

Claims (1)

1. follow-up mechanism is caught in the location, it is characterized in that: comprise a location phtographic lens (10) and an autozoom phtographic lens (20) at least, connect by microprocessor (30) between two camera lenses, positioning radiography camera lens (10) and autozoom phtographic lens (20) all are installed on the rotating turret, and the action of the rotational angle of autozoom phtographic lens (20) and zoom is controlled by microprocessor (30); Microprocessor (30) has display and measures conversion system.

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