CN204758473U - Automation equipment suitable for long -range real -time supervision of surface of water spectrum - Google Patents

Abstract

The utility model discloses an automation equipment suitable for long -range real -time supervision of surface of water spectrum, include master control system, wireless communication system, global positioning system, observation how much automatic adjustment system, spectral measurement systems, follow the system of shooing and remote server, spectral measurement ystem installation on surveing how much automatic adjustment system, master control system through the cable respectively with wireless communication system, global positioning system, observation how much automatic adjustment system, spectral measurement systems, follow the electrical connection of the system of shooing, the wireless communication system passes through ystem installation 0 and ystem installation 1 communication, the utility model has the advantages of high automation degree, reliable and stable, the precision is high, the real -time good, strong adaptability, interaction are good, not only is fit for monitoring the surface of water spectrum of single station position, mode that can also be through the network deployment monitored a plurality of stations.

Description

A kind of automation equipment being applicable to water surface spectrum remote real time monitoring

Technical field

The utility model belongs to Ocean Color Remote Sensing spectral measurement field, particularly relates to a kind of automation equipment being applicable to water surface spectrum remote real time monitoring.

Background technology

To ocean, the optical characteristic measuring of the water bodys such as lake is one of basis of Ocean Color Remote Sensing with analyzing, for different water bodys, field test obtains a large amount of measured spectras to the important step that is more absolutely necessary Ocean Color Remote Sensing modeling and Remote Sensing Products validity check, for the I class water body in ocean, underwater section mensuration is first-selected method, and to Yu Haiyang, the high chlorophyll such as littoral and inland lake is the above mensuration of the water surface with the relative method be applicable to of measurement of the apparent optical properties of II class water body of high suspended matter concentration, although NASA, international water colour SIMBIOS tissue etc. gives relatively reasonable measuring method and data processing scheme to this, but in practical study, manual operation is sampled to obtain on-the-spot water body apparent spectral data on the spot and still be there is a lot of problem, this kind of monitoring method has certain accuracy in precision, but the data volume that this kind of measurement obtains is little, poor reliability, affect larger by site environment and human factor, and be carry out on point, be difficult to the overall change in time and space comprehensively reflecting water ecological setting, and it is time-consuming, effort, cost is high, the more important thing is and can not carry out real-time remote monitoring.

Therefore, be necessary to propose a kind of automation equipment being applicable to water surface spectrum remote real time monitoring, obtain accurate on-the-spot water body apparent spectral data.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of automation equipment being applicable to water surface spectrum remote real time monitoring.

The technical scheme that the utility model adopts is: a kind of automation equipment being applicable to water surface spectrum remote real time monitoring, is characterized in that: comprise turn-key system, wireless telecommunication system, GPS, observation geometry automatic adjustment system, spectral measurement system, follow camera system and remote server; Described spectral measurement system is arranged in described observation geometry automatic adjustment system, described turn-key system by cable respectively with described wireless telecommunication system, GPS, observation geometry automatic adjustment system, spectral measurement system, follow camera system and be electrically connected, described wireless telecommunication system to be connected with described remote server by wireless network and to communicate; Described turn-key system comprises control circuit board and the first watertight case, and described control circuit board is provided with data storage card, for storing spectroscopic data and the photo of measurement; The first described watertight case comprises the first capping and the first housing, and the first described capping top is provided with power interface, the first communication interface, the second communication interface, the 3rd communication interface, the 4th communication interface and five-way communication interface; The first described communication interface is electrically connected by cable and described observation geometry automatic adjustment system, the second described communication interface is electrically connected by cable and described wireless telecommunication system, the 3rd described communication interface is electrically connected by cable and described spectral measurement system, the 4th described communication interface is electrically connected by cable and described GPS, and described five-way communication interface is electrically connected by cable and described camera system of following; Described wireless telecommunication system comprises antenna, circuit board and the second watertight case, and the second described watertight case is assembled by the second capping and the second housing, is hollow structure in it, and described circuit board is arranged in described hollow structure; The second described capping top is provided with the 6th communication interface be connected with the second described communication interface, and the second described case top is provided with the antennal interface be connected with antenna; Described wireless telecommunication system is used for carrying out wireless telecommunications between turn-key system and described remote server; Described GPS comprises gps antenna, GPS circuit board and the 3rd watertight case, and the 3rd described watertight case is assembled by the 3rd capping and the 3rd housing, is hollow structure in it, and described GPS circuit board is arranged in described hollow structure; The 3rd described capping top is provided with the 7th communication interface and gps antenna interface that are connected with the 4th described communication interface, and described gps antenna interface is for being connected to described GPS circuit board by described gps antenna; Described GPS is for obtaining the latitude and longitude information in experiment place; Described observation geometry automatic adjustment system mainly comprises control module, rotary drive unit, orientation tracking cell, universal stage and base; Described control module is provided with the interface with described turn-key system communication, and described control module and described rotary drive unit, orientation tracking cell are electrically connected; Described rotary drive unit comprises motor drive plate, stepper motor, Worm wheel transmission mechanism and motor fixing plate; Described motor drive plate and stepper motor are electrically connected, and described stepper motor is threaded connection that part is fixedly mounted on described motor fixing plate bottom surface, its rotation axis is connected with the Worm wheel transmission mechanism be arranged on described motor fixing plate; Described orientation tracking cell is an attitude sensor, for the observed bearing of the spectral measurement system described in real-time follow-up; Described universal stage comprises rolling disc, supporting revolving shaft and instrument carry bar, and described supporting revolving shaft is fixedly mounted on described rolling disc lower surface center, and described instrument carry bar is fixedly mounted on described rolling disc upper surface center; Described base is assembled by top cover and base housing, is hollow structure, is provided with inner erecting frame in hollow structure in it; Described top cover central authorities are provided with swivel bearing, are provided with the 8th communication interface be connected with the first communication interface of described turn-key system bottom described base housing; Described control module and motor drive plate are fixedly mounted on described inside erecting frame; Described motor fixing plate is fixedly mounted on described top cover lower surface, and whole rotary drive unit is all in the hollow structure of base; Described supporting revolving shaft is fixedly connected with described Worm wheel transmission mechanism through described swivel bearing; Described spectral measurement system is made up of spectrometer, fibre-optical probe, reference plate, sway brace, the first steering wheel, direct sunlight guard mechanism, light path change-over switch, probe fixing bracket; Described spectrometer is arranged in described base housing, is connected with described light path change-over switch by optical fiber; The cable-through hole that described fibre-optical probe afterbody optical fiber is arranged through described base housing bottom surface is connected with described light path change-over switch; Described probe fixing bracket is for being fixed to the first described steering wheel rotating shaft by described fibre-optical probe; Described reference plate is fixedly mounted on described rolling disc, and position is just in time in below described fibre-optical probe; Described sway brace one end level is fixedly mounted on described instrument carry bar, and the other end is fixedly connected with the first described steering wheel; Described direct sunlight guard mechanism comprises the second steering wheel, linking arm and shadow shield; The second described steering wheel is arranged on described reference plate side, and axial and described fibre-optical probe horizontal direction in angle of 45 degrees; Described shadow shield is fixedly mounted on the second described steering wheel by described linking arm; Described light path change-over switch comprises installing plate, fixed head, small machine and one group of joints of optical fibre, described installing plate has A, B two panels, all vertically be fixedly mounted on described fixed head on the surface, between A, B two panels installing plate and fixed head, form closed hollow sandwich; Described installing plate has printing opacity through hole, A, B two panels and hollow sandwich are communicated; Be provided with anti-dazzling screen in described hollow sandwich, described small machine is equipped with on described printing opacity through hole side, and the rotation axis of small machine stretches in described hollow sandwich by mounting hole; Described anti-dazzling screen one end is closely socketed on the rotation axis of described small machine, the other end can rotate around described rotation axis in described hollow sandwich plane, the width of described anti-dazzling screen is greater than printing opacity through-hole diameter, the anti-dazzling screen radius of gyration is greater than the distance of described rotation axis to printing opacity through hole, can block described printing opacity through hole when making described anti-dazzling screen go to horizontal level; Described printing opacity through hole passes through Fiber connection spectrometer at the opening of A sheet, and described printing opacity through hole passes through the fibre-optical probe described in Fiber connection at the opening of B sheet; The fuselage of described small machine is threaded connection part and fixed block is fixedly mounted on described fixed head, and described fixed head surface also has screw, is fixedly mounted in described base housing for whole light path change-over switch is threaded connection part; Described camera system of following is a small body type camera, is wired to described five-way communication interface; Described remote server is that some outer nets can access the computing machine obtained, and is communicated with described wireless telecommunication system by wireless network.

As preferably, described Worm wheel transmission mechanism forms by rotating worm gear, driven worm gear and driving-belt; Described supporting revolving shaft is fixedly connected with described driven worm gear through described swivel bearing, and described rotation worm gear is connected with described driven worm gear by described driving-belt.

As preferably, the inside erecting frame of described observation geometry automatic adjustment system is provided with mounting hole, for being threaded connection part by described control module and the fixed installation of motor drive plate thereon.

As preferably, the control module of described observation geometry automatic adjustment system is the circuit board that processor and peripheral circuit are formed.

As preferably, described orientation tracking cell is an attitude sensor, is threaded connection part and is fixedly mounted on described instrument carry masthead end, and be electrically connected by wire and described control module.

As preferably, described linking arm is L-type structure, for connecting the second described steering wheel rotating shaft and shadow shield, described shadow shield is rotated on sunshine plane of incidence.

As preferably, described spectrometer and described small machine are connected to the 3rd described communication interface by cable through described cable-through hole, and the first described steering wheel and the second steering wheel are connected to the 3rd described communication interface respectively by cable.

As preferably, described camera system of following is threaded connection the side that part is fixedly mounted on the first steering wheel symmetry on described probe fixing bracket with described, makes described camera system of following consistent all the time with the observed ray of described fibre-optical probe.

The utility model carries out compared with pointwise spectrum sample with traditional with ship, by laying the utility model device, the consumption of the aspect such as field work human cost, material resources cost can be greatly reduced, networking can also be carried out, not only can continuous data in long-range acquisition large area spatial and temporal distributions, and make Measurement and analysis more have dynamic, continuity and continuation.The utility model has the advantages such as automaticity is high, reliable and stable, precision is high, real-time is good, strong adaptability, interactivity are good.The utility model device is not only applicable to monitoring the water surface spectrum of single erect-position, can also be monitored by the mode of networking to multiple erect-position.

Accompanying drawing explanation

Fig. 1: be the principle of device schematic diagram of the utility model embodiment;

Fig. 2: be the one-piece construction schematic diagram of the device of the utility model embodiment;

Fig. 3: for the observation geometry automatic adjustment system of the device of the utility model embodiment, spectral measurement system, follow the structural representation of camera system;

Fig. 4: be the inner structure schematic diagram of the observation geometry automatic adjustment system of the device of the utility model embodiment;

Fig. 5: be the structural representation of the rotary drive unit of the device of the utility model embodiment;

Fig. 6: for the device of the utility model embodiment spectral measurement system, follow the plan structure schematic diagram of camera system;

Fig. 7: be the structural representation of the light path change-over switch of the device of the utility model embodiment.

In figure: 1-turn-key system, 11-control circuit board, 111-data storage card, 121-first capping, 122-first housing, 1211-power interface, 1212-first communication interface, 1213-second communication interface, 1214-the 3rd communication interface, 1215-the 4th communication interface, 1216-five-way communication interface, 2-GPS, 21-antenna, 22-circuit board, 231-second capping, 2311-the 6th communication interface, 232-second housing, 2321-antennal interface, 3-GPS, 31-GPS antenna, 32-GPS circuit board, 331-the 3rd capping, 3311-the 7th communication interface, 3312-GPS antennal interface, 332-the 3rd housing, 4-observes geometry automatic adjustment system, 41-control module, 42-rotary drive unit, 421-motor drive plate, 422-stepper motor, 4231-rotates worm gear, the driven worm gear of 4232-, 4233-driving-belt, 424-motor fixing plate, 43-orientation tracking cell, 441-rolling disc, 442-supporting revolving shaft, 443-instrument carry bar, 451-top cover, 452-base housing, 4521-the 8th communication interface, 4522-cable-through hole, the inner erecting frame of 453-, 454-swivel bearing, 5-spectral measurement system, 51-spectrometer, 52-fibre-optical probe, 53-reference plate, 54-sway brace, 55-first steering wheel, 56-direct sunlight guard mechanism, 561 second steering wheels, 562 linking arms, 563 shadow shields, 57-light path change-over switch, 571-installing plate, 5711-hollow sandwich, 5712-printing opacity through hole, 572-fixed head, 5721-screw, 573-small machine, 5731-rotation axis, 5732-anti-dazzling screen, the 574-joints of optical fibre, 58-probe fixing bracket, 6-follows camera system, 7-remote server.

Embodiment

Understand for the ease of those of ordinary skill in the art and implement the utility model, below in conjunction with drawings and Examples, the utility model is described in further detail, should be appreciated that exemplifying embodiment described herein is only for instruction and explanation of the utility model, and be not used in restriction the utility model.

Ask for an interview Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, a kind of automation equipment being applicable to water surface spectrum remote real time monitoring that the utility model provides, comprises turn-key system 1, wireless telecommunication system 2, GPS 3, observation geometry automatic adjustment system 4, spectral measurement system 5, follows camera system 6 and remote server 7; Spectral measurement system 5 is arranged in observation geometry automatic adjustment system 4, turn-key system 1 by cable respectively with wireless telecommunication system 2, GPS 3, observe geometry automatic adjustment system 4, spectral measurement system 5, follow camera system 6 and be electrically connected, wireless telecommunication system 2 to be connected with remote server 7 by wireless network and to communicate; Turn-key system 1 comprises control circuit board 11 and the first watertight case, control circuit board 11 is provided with data storage card 111, for storing the spectroscopic data of measurement; First watertight case comprises the first capping 121 and the first housing 122, first capping 121 top is provided with power interface 1211, first communication interface 1212, second communication interface 1213, the 3rd communication interface 1214, the 4th communication interface 1215 and five-way communication interface 1216; First communication interface 1212 is electrically connected by cable and observation geometry automatic adjustment system 4, second communication interface 1213 is electrically connected by cable and wireless telecommunication system 2,3rd communication interface 1214 is electrically connected by cable and spectral measurement system 5,4th communication interface 1215 is electrically connected by cable and GPS 3, five-way communication interface 1216 by cable with follow camera system 6 and be electrically connected; Wireless telecommunication system 2 comprises antenna 21, circuit board 22 and the second watertight case, and the second watertight case is assembled by the second capping 231 and the second housing 232, and be hollow structure in it, circuit board 22 is arranged in hollow structure; Second capping 231 top is provided with the 6th communication interface 2211, second housing 232 top be connected with the second communication interface 1213 and is provided with the antennal interface 2321 be connected with antenna 21; Wireless telecommunication system 2 for carrying out wireless telecommunications between turn-key system 1 and remote server 7; GPS 3 comprises gps antenna 31, GPS circuit board 32 and the 3rd watertight case, and the 3rd watertight case is assembled by the 3rd capping 331 and the 3rd housing 332, and be hollow structure in it, GPS circuit board 32 is arranged in hollow structure; 3rd capping 331 top is provided with the 7th communication interface 3311 and gps antenna interface 3312 that are connected with the 4th communication interface 1215, and gps antenna interface 3312 is for being connected to GPS circuit board 32 by gps antenna 31; GPS 3 is for obtaining the latitude and longitude information in experiment place; Observation geometry automatic adjustment system 4 mainly comprises control module 41, rotary drive unit 42, orientation tracking cell 43, universal stage and base; Control module 41 is the circuit board that processor and peripheral circuit are formed, and control module 41 is provided with the interface with the communication of described turn-key system 1, and control module 41 and rotary drive unit 42, orientation tracking cell 43 are electrically connected; Rotary drive unit 42 comprises motor drive plate 421, stepper motor 422, Worm wheel transmission mechanism and motor fixing plate 424; Motor drive plate 421 and stepper motor 422 are electrically connected, and stepper motor 422 is threaded connection that part is fixedly mounted on motor fixing plate 424 bottom surface, its rotation axis is connected with the Worm wheel transmission mechanism be arranged on motor fixing plate 424; Orientation tracking cell 43 is an attitude sensor, is threaded connection part and is fixedly mounted on instrument carry bar 443 top, and be electrically connected, for the observed bearing of real-time follow-up spectral measurement system 5 by wire and control module 41; Universal stage comprises rolling disc 441, supporting revolving shaft 442 and instrument carry bar 443, and supporting revolving shaft 442 is fixedly mounted on rolling disc 441 lower surface center, and instrument carry bar 443 is fixedly mounted on rolling disc 441 upper surface center; Base is assembled by top cover 451 and base housing 452, is hollow structure in it, is provided with inner erecting frame 453 in hollow structure; Top cover 451 central authorities are provided with swivel bearing 454, are provided with the 8th communication interface 4521 be connected with the first communication interface 1212 of turn-key system 1 bottom base housing 452; Control module 41 and motor drive plate 421 are fixedly mounted on inner erecting frame 453; Motor fixing plate 424 is fixedly mounted on top cover 451 lower surface, and whole rotary drive unit 42 is all in the hollow structure of base; Supporting revolving shaft 442 is fixedly connected with Worm wheel transmission mechanism through swivel bearing 454; Worm wheel transmission mechanism forms by rotating worm gear 4231, driven worm gear 4232 and driving-belt 4233; Supporting revolving shaft 442 is fixedly connected with driven worm gear 4232 through swivel bearing 454, rotates worm gear 4231 and is connected with driven worm gear 4232 by driving-belt 4233.The inside erecting frame 453 of observation geometry automatic adjustment system 4 is provided with mounting hole, control module 41 and motor drive plate 421 is fixedly mounted thereon for being threaded connection part.Spectral measurement system 5 is made up of spectrometer 51, fibre-optical probe 52, reference plate 53, sway brace 54, first steering wheel 55, direct sunlight guard mechanism 56, light path change-over switch 57, probe fixing bracket 58; Spectrometer 51 is arranged in base housing 452, is connected with light path change-over switch 57 by optical fiber; The cable-through hole 4522 that fibre-optical probe 52 afterbody optical fiber is arranged through base housing 452 bottom surface is connected with light path change-over switch 57; Probe fixing bracket 58 is for being fixed to the first steering wheel 55 rotating shaft by fibre-optical probe 52; Reference plate 53 is fixedly mounted on rolling disc 441, and position is just in time in below fibre-optical probe 52; Sway brace 54 one end level is fixedly mounted on instrument carry bar 443, and the other end is fixedly connected with the first steering wheel 55; Direct sunlight guard mechanism 56 comprises the second steering wheel 561, linking arm 562 and shadow shield 563; Second steering wheel 561 is arranged on reference plate 53 side, and axis and fibre-optical probe 52 horizontal direction are in angle of 45 degrees; Linking arm 562 is L-type structure, for connecting the second steering wheel 561 rotating shaft and shadow shield 563, make shadow shield 563 with sunshine plane of incidence on rotate.Light path change-over switch 57 comprises installing plate 571, fixed head 572, small machine 573 and one group of joints of optical fibre 574, installing plate 571 has A, B two panels, all vertically be fixedly mounted on fixed head 572 on the surface, between A, B two panels installing plate and fixed head 572, form the hollow sandwich 5711 of open-top; Installing plate 571 has printing opacity through hole 5712, A, B two panels and hollow sandwich 5711 are communicated; In hollow sandwich, 5711 are provided with anti-dazzling screen 5732, and small machine 573 is equipped with on printing opacity through hole 5712 side, and the rotation axis 5731 of small machine 573 stretches in hollow sandwich 5711 by mounting hole; Anti-dazzling screen 5732 one end is closely socketed on the rotation axis 5731 of small machine 573, the other end can rotate around rotation axis 5731 in hollow sandwich 5711 plane, the width of anti-dazzling screen 5732 is greater than printing opacity through hole 5712 diameter, anti-dazzling screen 5732 radius of gyration is greater than the distance of rotation axis 5731 to printing opacity through hole 5712, can block printing opacity through hole 5712 when making anti-dazzling screen 5732 go to horizontal level; Printing opacity through hole 5712 passes through Fiber connection spectrometer 51 at the opening of A sheet, and printing opacity through hole 5712 passes through Fiber connection fibre-optical probe 52 at the opening of B sheet; The fuselage of small machine 573 is threaded connection part and fixed block is fixedly mounted on fixed head 572, and fixed head 572 surface also has screw 5721, is fixedly mounted in base housing 452 for whole light path change-over switch 57 is threaded connection part; Spectrometer 51 and small machine 573 are connected to the 3rd communication interface 1214, first steering wheel 55 by cable through cable-through hole 4522 and the second steering wheel 561 is connected to the 3rd communication interface 1214 respectively by cable.Following camera system 6 is a small body type camera, is wired to five-way communication interface 1216; Follow camera system 6 to be threaded connection part and to be fixedly mounted on side with the first steering wheel 55 symmetry on probe fixing bracket 58, make to follow camera system 6 consistent all the time with the observed ray of fibre-optical probe 51.Remote server 7 is that some outer nets can access the computing machine obtained, and is communicated with wireless telecommunication system 2 by wireless network.

Adopt the utility model to carry out the process of water surface spectrum remote real time monitoring, mainly comprise: the robotization of observation geometry adjustment, the robotization of spectral measurement, the robotization of image record, remote real time monitoring;

The robotization of observation geometry adjustment, its specific implementation process is: positional information GPS 3 obtained by turn-key system 1 and Time Transmission give observation geometry automatic adjustment system 4, the position angle of the sun is calculated again by control module 41, the result exported by orientation tracking cell 43 follows the tracks of the observed bearing obtaining fibre-optical probe 52, control module 41 is rotated by motor drive plate 421 control step motor 422, thus drive whole select turntable and on spectral measurement system 5 rotate, the observed ray of fibre-optical probe 52 is made to become 135 degree of angles with sun incident direction, realize the automatic adjustment of observation geometry,

The robotization of spectral measurement, its specific implementation comprises the following steps:

Step 1: before sampling, turn-key system 1 powers on first to spectrometer 51;

Step 2: dark current is measured, turn-key system 1 controls light path change-over switch 57 and closes, and cuts off the light path between fibre-optical probe 52 and spectrometer 51, then carries out dark current measurement, read spectrometer 8-15 time;

Step 3: on-gauge plate is measured, and turn-key system 1 controls fibre-optical probe 52 by the first steering wheel 55 and points to standard reference plate 53 vertically downward, then controls spectrometer 51 and measures 8-15 bar spectroscopic data;

Step 4: the on-gauge plate blocking direct sunlight is measured, the sun altitude that turn-key system 1 calculates according to control module 41, controlling the second steering wheel 561 drives shadow shield 563 to rotate, make the shadow of shadow shield 563 just in time cover the measured zone of fibre-optical probe 52 on on-gauge plate, and then 8-15 bar spectroscopic data measured by control spectrometer 51;

Step 5: target water bulk measurement, turn-key system 1 controls fibre-optical probe 52 by the first steering wheel 55 and points to target water body to become the direction of 40 degree of angles with water surface normal, then controls spectrometer 51 and measures 8-15 bar spectroscopic data;

Step 6: skylight is measured, and turn-key system 1 controls fibre-optical probe 52 by the first steering wheel 55 and points to target sky to become the direction of 40 degree of angles with water surface normal, then controls spectrometer 51 and measures 8-15 bar spectroscopic data;

Step 7: repeat step 3, a step 4 again; Measuring Time at least will cross over a wave period, to reject the impact of water surface noise in follow-up data process;

The robotization of image record, its specific implementation process is: the lens direction of following camera system 6 remains consistent with fibre-optical probe 52, while each target carries out spectral measurement, turn-key system 1 all can control to follow camera system 6 and be recorded by target image;

Remote real time monitoring, its specific implementation process is: turn-key system 1 is except the spectroscopic data that will gather and image data storage are in data storage card 111 at every turn, by wireless telecommunication system 2, data are sent back on remote server 7 also in real time, be stored on the memory device on remote server 7 by it again, and on the display device Dynamic Announce out, user need not appear at experiment place just can real time inspection to spectroscopic data and the photo of testing place in-site measurement; In addition, user can also utilize remote server 7 to send order to wireless telecommunication system 2 by network, and then control turn-key system 1 carries out startup sampling, closes sampling, arranges sample frequency, obtains data, empties the operations such as storage.

Although this instructions more employs turn-key system 1, control circuit board 11, data storage card 111, first watertight case, first capping 121, power interface 1211, first communication interface 1212, second communication interface 1213, 3rd communication interface 1214, 4th communication interface 1215, five-way communication interface 1216, first housing 122, wireless telecommunication system 2, antenna 21, circuit board 22, second watertight case, second capping 231, 6th communication interface 2311, second housing 232, antennal interface 2321, GPS 3, gps antenna 31, GPS circuit board 32, 3rd watertight case, 3rd capping 331, 7th communication interface 3311, gps antenna interface 3312, 3rd housing 332, observation geometry automatic adjustment system 4, control module 41, rotary drive unit 42, motor drive plate 421, stepper motor 422, Worm wheel transmission mechanism, rotate worm gear 4231, driven worm gear 4232, driving-belt 4233, motor fixing plate 424, orientation tracking cell 43, universal stage, rolling disc 441, supporting revolving shaft 442, instrument carry bar 443, base, top cover 451, base housing 452, 8th communication interface 4521, cable-through hole 4522, inner erecting frame 453, swivel bearing 454, spectral measurement system 5, spectrometer 51, fibre-optical probe 52, reference plate 53, sway brace 54, first steering wheel 55, direct sunlight guard mechanism 56, second steering wheel 561, linking arm 562, shadow shield 563, light path change-over switch 57, installing plate 571, hollow sandwich 5711, printing opacity through hole 5712, fixed head 572, screw 5721, small machine 573, rotation axis 5731, anti-dazzling screen 5732, the joints of optical fibre 574, probe fixing bracket 58, follow camera system 6, term such as remote server 7 grade, but do not get rid of the possibility using other terms.Use these terms to be only used to describe essence of the present utility model more easily, the restriction that they are construed to any one additional is all contrary with the utility model spirit.

Should be understood that, the part that this instructions does not elaborate all belongs to prior art.

Should be understood that; the above-mentioned description for preferred embodiment is comparatively detailed; therefore the restriction to the utility model scope of patent protection can not be thought; those of ordinary skill in the art is under enlightenment of the present utility model; do not departing under the ambit that the utility model claim protects; can also make and replacing or distortion, all fall within protection domain of the present utility model, request protection domain of the present utility model should be as the criterion with claims.

Claims (8)

1. be applicable to an automation equipment for water surface spectrum remote real time monitoring, it is characterized in that: comprise turn-key system (1), wireless telecommunication system (2), GPS (3), observation geometry automatic adjustment system (4), spectral measurement system (5), follow camera system (6) and remote server (7); Described spectral measurement system (5) is arranged in described observation geometry automatic adjustment system (4), described turn-key system (1) by cable respectively with described wireless telecommunication system (2), GPS (3), observe geometry automatic adjustment system (4), spectral measurement system (5), follow camera system (6) and be electrically connected, described wireless telecommunication system (2) to be connected with described remote server (7) by wireless network and to communicate;

Described turn-key system (1) comprises control circuit board (11) and the first watertight case, described control circuit board (11) is provided with data storage card (111), for storing spectroscopic data and the photo of measurement, the first described watertight case comprises the first capping (121) and the first housing (122), and described the first capping (121) top is provided with power interface (1211), the first communication interface (1212), the second communication interface (1213), the 3rd communication interface (1214), the 4th communication interface (1215) and five-way communication interface (1216), described the first communication interface (1212) is electrically connected by cable and described observation geometry automatic adjustment system (4), described the second communication interface (1213) is electrically connected by cable and described wireless telecommunication system (2), the 3rd described communication interface (1214) is electrically connected by cable and described spectral measurement system (5), the 4th described communication interface (1215) is electrically connected by cable and described GPS (3), described five-way communication interface (1216) is electrically connected by cable and described camera system (6) of following,

Described wireless telecommunication system (2) comprises antenna (21), circuit board (22) and the second watertight case, the second described watertight case is assembled by the second capping (231) and the second housing (232), be hollow structure in it, described circuit board (22) is arranged in described hollow structure; Described the second capping (231) top is provided with the 6th communication interface (2311) be connected with described the second communication interface (1213), and described the second housing (232) top is provided with the antennal interface (2321) be connected with antenna (21); Described wireless telecommunication system (2) for carrying out wireless telecommunications between turn-key system (1) and described remote server (7);

Described GPS (3) comprises gps antenna (31), GPS circuit board (32) and the 3rd watertight case, the 3rd described watertight case is assembled by the 3rd capping (331) and the 3rd housing (332), be hollow structure in it, described GPS circuit board (32) is arranged in described hollow structure; The 3rd described capping (331) top is provided with the 7th communication interface (3311) and gps antenna interface (3312) that are connected with the 4th described communication interface (1215), and described gps antenna interface (3312) is for being connected to described GPS circuit board (32) by described gps antenna (31); Described GPS (3) is for obtaining the latitude and longitude information in experiment place;

Described observation geometry automatic adjustment system (4) mainly comprises control module (41), rotary drive unit (42), orientation tracking cell (43), universal stage and base; Described control module (41) is provided with the interface with described turn-key system (1) communication, and described control module (41) and described rotary drive unit (42), orientation tracking cell (43) are electrically connected; Described rotary drive unit (42) comprises motor drive plate (421), stepper motor (422), Worm wheel transmission mechanism and motor fixing plate (424); Described motor drive plate (421) and stepper motor (422) are electrically connected, and described stepper motor (422) is threaded connection that part is fixedly mounted on described motor fixing plate (424) bottom surface, its rotation axis is connected with the Worm wheel transmission mechanism be arranged on described motor fixing plate (424); Described orientation tracking cell (43) is an attitude sensor, for the observed bearing of the spectral measurement system (5) described in real-time follow-up; Described universal stage comprises rolling disc (441), supporting revolving shaft (442) and instrument carry bar (443), described supporting revolving shaft (442) is fixedly mounted on described rolling disc (441) lower surface center, and described instrument carry bar (443) is fixedly mounted on described rolling disc (441) upper surface center; Described base is assembled by top cover (451) and base housing (452), is hollow structure in it, is provided with inner erecting frame (453) in hollow structure; Described top cover (451) central authorities are provided with swivel bearing (454), and described base housing (452) bottom is provided with the 8th communication interface (4521) be connected with first communication interface (1212) of described turn-key system (1); Described control module (41) and motor drive plate (421) are fixedly mounted on described inside erecting frame (453); Described motor fixing plate (424) is fixedly mounted on described top cover (451) lower surface, and whole rotary drive unit (42) is all in the hollow structure of base; Described supporting revolving shaft (442) is fixedly connected with described Worm wheel transmission mechanism through described swivel bearing (454);

Described spectral measurement system (5) is made up of spectrometer (51), fibre-optical probe (52), reference plate (53), sway brace (54), the first steering wheel (55), direct sunlight guard mechanism (56), light path change-over switch (57), probe fixing bracket (58), described spectrometer (51) is arranged in described base housing (452), is connected with described light path change-over switch (57) by optical fiber, the cable-through hole (4522) that described fibre-optical probe (52) afterbody optical fiber is arranged through described base housing (452) bottom surface is connected with described light path change-over switch (57), described probe fixing bracket (58) is for being fixed to described the first steering wheel (55) rotating shaft by described fibre-optical probe (52), described reference plate (53) is fixedly mounted on described rolling disc (441), and position is just in time in below described fibre-optical probe (52), described sway brace (54) one end level is fixedly mounted on described instrument carry bar (443), and the other end is fixedly connected with described the first steering wheel (55), described direct sunlight guard mechanism (56) comprises the second steering wheel (561), linking arm (562) and shadow shield (563), described the second steering wheel (561) is arranged on described reference plate (53) side, and axial and described fibre-optical probe (52) horizontal direction in angle of 45 degrees, described shadow shield (563) is fixedly mounted on described the second steering wheel (561) by described linking arm (562), described light path change-over switch (57) comprises installing plate (571), fixed head (572), small machine (573) and one group of joints of optical fibre (574), described installing plate (571) has A, B two panels, all vertically be fixedly mounted on described fixed head (572) on the surface, between A, B two panels installing plate and fixed head (572), form closed empty interlayer (5711), described installing plate (571) has printing opacity through hole (5712), A, B two panels and hollow sandwich (5711) are communicated, in described hollow sandwich, (5711) are provided with anti-dazzling screen (5732), described small machine (573) is equipped with on described printing opacity through hole (5712) side, and the rotation axis (5731) of small machine (573) stretches in described hollow sandwich (5711) by mounting hole, described anti-dazzling screen (5732) one end is closely socketed on the rotation axis (5731) of described small machine (573), the other end can rotate around described rotation axis (5731) in described hollow sandwich (5711) plane, the width of described anti-dazzling screen (5732) is greater than printing opacity through hole (5712) diameter, anti-dazzling screen (5732) radius of gyration is greater than the distance of described rotation axis (5731) to printing opacity through hole (5712), described printing opacity through hole (5712) can be blocked when making described anti-dazzling screen (5732) go to horizontal level, described printing opacity through hole (5712) passes through Fiber connection spectrometer (51) at the opening of A sheet, and described printing opacity through hole (5712) passes through the fibre-optical probe (52) described in Fiber connection at the opening of B sheet, the fuselage of described small machine (573) is threaded connection part and fixed block is fixedly mounted on described fixed head (572), described fixed head (572) surface also has screw (5721), is fixedly mounted in described base housing (452) for whole light path change-over switch (57) being threaded connection part,

Described camera system (6) of following is a small body type camera, is wired to described five-way communication interface (1216);

Described remote server (7) is that some outer nets can access the computing machine obtained, and is communicated with described wireless telecommunication system (2) by wireless network.

2. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1, is characterized in that: described Worm wheel transmission mechanism forms by rotating worm gear (4231), driven worm gear (4232) and driving-belt (4233); Described supporting revolving shaft (442) is fixedly connected with described driven worm gear (4232) through described swivel bearing (454), and described rotation worm gear (4231) is connected with described driven worm gear (4232) by described driving-belt (4233).

3. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1, it is characterized in that: the inside erecting frame (453) of described observation geometry automatic adjustment system (4) is provided with mounting hole, for being threaded connection part, described control module (41) and motor drive plate (421) being fixedly mounted thereon.

4. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1 or 3, is characterized in that: the circuit board that the control module (41) of described observation geometry automatic adjustment system (4) is formed for processor and peripheral circuit.

5. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1, it is characterized in that: described orientation tracking cell (43) is an attitude sensor, be threaded connection part and be fixedly mounted on described instrument carry bar (443) top, and be electrically connected by wire and described control module (41).

6. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1, it is characterized in that: described linking arm (562) is L-type structure, for connecting described the second steering wheel (561) rotating shaft and shadow shield (563), described shadow shield (563) is rotated on sunshine plane of incidence.

7. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1, it is characterized in that: described spectrometer (51) and described small machine (573) are connected to the 3rd described communication interface (1214) by cable through described cable-through hole (4522), and described the first steering wheel (55) and the second steering wheel (561) are connected to the 3rd described communication interface (1214) respectively by cable.

8. the automation equipment being applicable to water surface spectrum remote real time monitoring according to claim 1, it is characterized in that: described camera system (6) of following is threaded connection part and is fixedly mounted on the symmetrical side of upper and described the first steering wheel (55) of described probe fixing bracket (58), make described camera system (6) of following consistent all the time with the observed ray of described fibre-optical probe (51).