CN203070015U - Telescope based wireless transmission control system - Google Patents

Abstract

The utility model discloses a telescope based wireless transmission control system, which comprises a control processing terminal, an intelligent processing terminal, an electric control operating platform and a positioning module, wherein the control processing terminal comprises a microprocessor and an optical camera shooting module, the microprocessor is connected to a DSP microprocessor and a first communication module, an output end of the microprocessor is connected with an input end of the electric control operating platform, an output end of the optical camera shooting module is connected with a first input end of the microprocessor, the microprocessor is wirelessly connected with the intelligent processing terminal through the first communication module, and an output end of the positioning module is connected with a second input end of the microprocessor. The telescope based wireless transmission control system is high in user friendliness and convenient to operate, and can be viewed by multiple persons simultaneously. The telescope based wireless transmission control system can carry out remote control adjustment on a telescope through the intelligent processing terminal, can adjust the telescope quickly, meets viewing needs, and can be widely applied to the photoelectric field.

Description

A kind of based on telescopical radio transmission control system

Technical field

The utility model relates to photoelectric field, and is particularly a kind of based on telescopical radio transmission control system.

Background technology

Along with society and scientific and technological progress, telescopical application is more and more widely not only used in daily life, also is widely used in teaching field, shooting field etc.But at present in use there is following problem in telescope: 1, owing to when using telescope, must watch the discomfort that can cause eyes for a long time with eyeball near watching eyepiece just can watch, and body part strains such as neck, waist; 2, when needs photographic images or recorded video, also need the camera by the outside, troublesome poeration; 3, every telescope can only a people be watched, and can't a plurality of people watch simultaneously; 4, when watching the object of motion, need the manual adjustments telescope, but there is deviation easily in manual adjustments, can't satisfy the telescopical requirement of quick adjustment.

The utility model content

In order to solve above-mentioned technical matters, the purpose of this utility model provide a kind of user friendly height, easy to operate, can realize that many people watch simultaneously and can by wireless mode control based on telescopical radio transmission control system.

The technical scheme that its technical matters that solves the utility model adopts is:

A kind of based on telescopical radio transmission control system, comprising: control processing terminal, Intelligent treatment terminal, be used for regulating telescopical electric control operation platform and be used for the telescopical locating module of auxiliary adjustment;

Described control processing terminal comprises microprocessor and optics shooting module, described microprocessor is connected with DSP microprocessor and first communication module respectively, the output terminal of described microprocessor is connected with the input end of electric control operation platform, the output terminal of described optics shooting module is connected with the first input end of microprocessor, described microprocessor is connected with the Intelligent treatment terminal wireless by first communication module, and the output terminal of described locating module is connected with second input end of microprocessor.

Further, described locating module comprises GPS module, digital compass and gyroscope.

Further, described microprocessor also is connected with first memory module.

Further, described Intelligent treatment terminal comprises control module and load module, the output terminal of described load module is connected with the input end of control module, the output terminal of described control module is connected with display module, described control module is connected with second memory module and second communication module respectively, and described control module is successively by second communication module and first communication module and microprocessor wireless connections.

Further, also be connected with the repeater that amplifies or transmit for to transmission of data signals between described first communication module and second communication module.

Further, also be connected with for the router that transmission of data signals is distributed between described first communication module and second communication module.

Further, also comprise the Temperature Humidity Sensor that is connected with the 3rd input end of microprocessor and/or the microphone that is connected with the four-input terminal of microprocessor.

The beneficial effects of the utility model are: of the present utility model a kind of based on telescopical radio transmission control system, after the optics shooting module acquisition of image data that is installed in the telescope ocular place, after carrying out relevant treatment, microprocessor by wireless transmission method with telescopical locator data and the view data after handling send to the Intelligent treatment terminal and show in real time, the Intelligent treatment terminal is according to showing result and locator data in real time simultaneously, to microprocessor, microprocessor is regulated the electric control operation platform according to this steering order by the wireless mode sending controling instruction.Native system can show the image of telescope ocular end in real time by wireless transmission method on the Intelligent treatment terminal, user friendly height, easy to operate and can realize that many people watch simultaneously, and can and can carry out Long-distance Control to telescope by the Intelligent treatment terminal and regulate, but the quick adjustment telescope satisfies the demand of watching.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1 is a kind of structured flowchart based on telescopical radio transmission control system of the present utility model;

Fig. 2 is the structured flowchart of an a kind of embodiment based on telescopical radio transmission control system of the present utility model;

Fig. 3 is a kind of workflow diagram based on telescopical radio transmission control system of the present utility model.

Embodiment

For the ease of following description, at first provide following explanation of nouns:

GPS:Global Positioning System, GPS;

CCD:Charge Coupled Device, charge coupled cell;

CMOS:Complementary Metal Oxide Semiconductor, complementary metal oxide semiconductor (CMOS);

DSP:Digital Signal Processor, digital signal processing;

RAM(Random Access Memory): random access memory;

EPROM (Erasable Programmable Read Only Memory): erasable and programable memory;

FLASH: flash memory.

With reference to Fig. 1, it is a kind of based on telescopical radio transmission control system that the utility model provides, and comprising: control processing terminal, Intelligent treatment terminal, be used for regulating telescopical electric control operation platform and be used for the telescopical locating module of auxiliary adjustment;

Described control processing terminal comprises microprocessor and optics shooting module, described microprocessor is connected with DSP microprocessor and first communication module respectively, the output terminal of described microprocessor is connected with the input end of electric control operation platform, the output terminal of described optics shooting module is connected with the first input end of microprocessor, described microprocessor is connected with the Intelligent treatment terminal wireless by first communication module, and the output terminal of described locating module is connected with second input end of microprocessor.

Telescope is installed on the electric control operation platform, and optics shooting module is installed in telescopical eyepiece place.

Be further used as preferred embodiment, with reference to Fig. 2, described locating module comprises GPS module, digital compass and gyroscope.

Be further used as preferred embodiment, described microprocessor also is connected with first memory module.

Be further used as preferred embodiment, described Intelligent treatment terminal comprises control module and load module, the output terminal of described load module is connected with the input end of control module, the output terminal of described control module is connected with display module, described control module is connected with second memory module and second communication module respectively, and described control module is successively by second communication module and first communication module and microprocessor wireless connections.

Be further used as preferred embodiment, also be connected with the repeater that amplifies or transmit for to transmission of data signals between described first communication module and second communication module.

Be further used as preferred embodiment, also be connected with for the router that transmission of data signals is distributed between described first communication module and second communication module.

Be further used as preferred embodiment, also comprise the Temperature Humidity Sensor that is connected with the 3rd input end of microprocessor and/or the microphone that is connected with the four-input terminal of microprocessor.

With reference to Fig. 2, an a kind of specific embodiment based on telescopical radio transmission control system of the present utility model is as follows: comprise control processing terminal, Intelligent treatment terminal, be used for regulating telescopical electric control operation platform and be used for the telescopical locating module of auxiliary adjustment;

The control processing terminal comprises microprocessor and optics shooting module, microprocessor is connected with DSP microprocessor, first memory module and first communication module respectively, the output terminal of microprocessor is connected with the input end of electric control operation platform, the output terminal of optics shooting module is connected with the first input end of microprocessor, microprocessor is connected with the Intelligent treatment terminal wireless by first communication module, and the output terminal of locating module is connected with second input end of microprocessor;

Wherein locating module comprises GPS module, digital compass and gyroscope;

The Intelligent treatment terminal comprises control module and load module, the output terminal of load module is connected with the input end of control module, the output terminal of control module is connected with display module, control module is connected with second memory module and second communication module respectively, and control module is successively by second communication module and first communication module and microprocessor wireless connections;

The router that also is connected with for the repeater that transmission of data signals is amplified or transmit between first communication module and second communication module and is used for transmission of data signals is distributed; Here, can be to be connected with repeater and route respectively between first communication module and second communication module, also can be to be connected with repeater and router simultaneously;

Also comprise Temperature Humidity Sensor and microphone, the output terminal of Temperature Humidity Sensor is connected with the 3rd input end of microprocessor, and the output terminal of microphone is connected with the four-input terminal of microprocessor.

Preferably, microprocessor also comprises the telescope end load module for input control information, and telescope section load module can pass through wired connection mode input control information to microprocessor, thereby the electric control operation platform is regulated.

The GPS module is used for obtaining telescopical geographical location information, digital compass is used for the auxiliary telescopical camera lens orientation information that obtains, gyroscope is used for obtaining telescopical angle information, and in the process that telescope is regulated, gyroscope provides telescopical angle information support microprocessor that the electric control operation platform is regulated in real time.

The course of work of the telescopical camera lens orientation information of the auxiliary acquisition of digital compass is as follows:

Digital compass obtains sending to behind the data message of current terrestrial magnetic field the microprocessor of control processing terminal by magnetoresistive transducer, after microprocessor is handled the data message that receives, calculate current telescopical camera lens orientation information.

Telescope is installed on the electric control operation platform.Optics shooting module adopts CCD or cmos sensor to form.Optics shooting module is installed in telescopical eyepiece place, in this place's acquisition of image data, and simulation human eye reception condition.Here, because be real-time acquisition of image data, so through after the DSP resume module, also can obtain video data, be wirelessly transmitted to the Intelligent treatment terminal by microprocessor then and play in real time.

Microprocessor is used for collection, the transmission of control view data, and telescopical focusing, focusing etc.

The Intelligent treatment terminal can adopt mobile phone, panel computer etc., as long as corresponding control software is installed.

First memory module and second memory module comprise RAM, EPROM or FLASH etc.

Wireless transmission method between first communication module and second communication module can be high speed mobile networks such as wifi, 3G or 4G network.

Because in data handling procedure, carry out the common practise that analog to digital conversion and digital-to-analog conversion are this areas in case of necessity, therefore, in the utility model, omit the description to analog-to-digital conversion module and D/A converter module, also correspondingly omitted analog-to-digital conversion process process and digital-to-analog conversion processing procedure.

In the utility model, alleged telescope not only refers to conventional telescope, also comprises bird appreciation mirror, Target observator, gun aiming device, astronomical telescope etc.In the described various device, use radio transmission control system of the present utility model in front, can realize the watching of collection, camera lens of data easily, can realize that also many people watch simultaneously, and can regulate equipment rapidly and accurately.

With reference to Fig. 3, a kind of workflow based on telescopical radio transmission control system of the present utility model is as follows:

S1, use the optics shooting module acquisition of image data be installed in the telescope ocular place and send to microprocessor, use locating module to obtain telescopical locator data simultaneously and send to microprocessor;

S2, microprocessor receive locator data and view data, and view data is sent to the DSP microprocessor handle;

S3, microprocessor by first communication module with locator data and the view data after handling send to the Intelligent treatment terminal by wireless mode;

S4, Intelligent treatment terminal receive locator data, after receiving the view data after handling simultaneously and showing in real time, according to the locator data of real-time demonstration result and reception, by the wireless mode sending controling instruction to microprocessor;

After S5, microprocessor receive steering order, according to this steering order, in conjunction with locating module, the electric control operation platform is regulated.

Be further used as preferred embodiment, locator data described in described step S3 and the S4 comprises telescopical geographical location information, camera lens orientation information and angle information.

Be further used as preferred embodiment, described step S5, it is specially:

Microprocessor according to this steering order, in conjunction with the angle information that locating module returns in real time, is regulated the electric control operation platform after receiving steering order.Realize the adjusting to the telescope direction behind the adjusting electric control operation platform.

More than be that preferable enforcement of the present utility model is specified, but the invention is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent variations or replacement under the prerequisite of the utility model spirit, the modification that these are equal to or replacement all are included in the application's claim institute restricted portion.

Claims (7)

1. one kind based on telescopical radio transmission control system, it is characterized in that, comprising: control processing terminal, Intelligent treatment terminal, be used for regulating telescopical electric control operation platform and be used for the telescopical locating module of auxiliary adjustment;

Described control processing terminal comprises microprocessor and optics shooting module, described microprocessor is connected with DSP microprocessor and first communication module respectively, the output terminal of described microprocessor is connected with the input end of electric control operation platform, the output terminal of described optics shooting module is connected with the first input end of microprocessor, described microprocessor is connected with the Intelligent treatment terminal wireless by first communication module, and the output terminal of described locating module is connected with second input end of microprocessor.

2. according to claim 1ly a kind ofly it is characterized in that based on telescopical radio transmission control system described locating module comprises GPS module, digital compass and gyroscope.

3. according to claim 1ly a kind ofly it is characterized in that based on telescopical radio transmission control system described microprocessor also is connected with first memory module.

4. according to claim 1 a kind of based on telescopical radio transmission control system, it is characterized in that, described Intelligent treatment terminal comprises control module and load module, the output terminal of described load module is connected with the input end of control module, the output terminal of described control module is connected with display module, described control module is connected with second memory module and second communication module respectively, and described control module is successively by second communication module and first communication module and microprocessor wireless connections.

5. according to claim 4 a kind ofly it is characterized in that based on telescopical radio transmission control system, also be connected with the repeater that amplifies or transmit for to transmission of data signals between described first communication module and second communication module.

6. according to claim 4 a kind ofly it is characterized in that based on telescopical radio transmission control system, also be connected with for the router that transmission of data signals is distributed between described first communication module and second communication module.

7. according to claim 1 a kind ofly it is characterized in that based on telescopical radio transmission control system, also comprise the Temperature Humidity Sensor that is connected with the 3rd input end of microprocessor and/or the microphone that is connected with the four-input terminal of microprocessor.

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