CN204056310U - EO-1 hyperion gondola - Google Patents

Abstract

The utility model has about a kind of EO-1 hyperion gondola, comprises casing, adapter plate, control processor, high light spectrum image-forming optical spectrometer, lithium cell and supply module thereof, trigger module, GPS assist inertial navigation, solid state hard disc and UBS telltale; Wherein, this adapter plate is fixed on the inside of casing; This control processor, high light spectrum image-forming optical spectrometer, trigger module and UBS telltale are fixed on built-in adapter plate, and this GPS assists inertial navigation and lithium cell to be fixed on casing bottom; Concrete, this control processor is connected with high light spectrum image-forming optical spectrometer, this lithium cell is connected by supply module with control processor, high light spectrum image-forming optical spectrometer, with unified power supply, this trigger module and GPS assist inertial navigation to be connected with control processor through RS232 serial port transform USB module, this solid state hard disc is inserted on control processor, and this UBS telltale is connected with control processor.And EO-1 hyperion gondola of the present utility model, there is high integration and light, the demand of different aviation flight platform can be met.

Description

EO-1 hyperion gondola

Technical field

The utility model relates to high-spectrum remote-sensing field, particularly relates to a kind of EO-1 hyperion gondola being applied to Airborne Hyperspectral remote sensing data acquiring and storing.

Background technology

At present, in high-spectrum remote-sensing field, the collection of high-spectrum remote sensing data and storage, all utilize much single module to be connected by very long cable, each several part is powered alone, and the collection of high-spectrum remote sensing data storage control core is all in most cases relatively large desktop computer or notebook.So the system that existing collection stores high-spectrum remote sensing data is all too scattered, and each several part is powered separately, limits manoevreability and the overall compactness of whole system.And in actual applications, the position of high light spectrum image-forming optical spectrometer and GPS inertial navigation module is not fixed, the accuracy confidence level of gps data and attitude parameter etc. is poor.

In addition, when high-spectrum remote-sensing is measured, the system that above-mentioned collection stores high-spectrum remote sensing data can easily not be mounted on the flying platforms such as man-machine, unmanned plane, dirigible, thus limits the popularization and application of high light spectrum image-forming technology.

Because the above-mentioned existing system Problems existing gathering storage high-spectrum remote sensing data, the present inventor is based on being engaged in the practical experience and expertise that this type of product design manufacture enriches for many years, and coordinate the utilization of scientific principle, actively in addition research and innovation, to founding a kind of high-spectrum remote-sensing device of new structure, existing Problems existing can be solved, make it have more practicality.Through constantly research, design, and through repeatedly studying sample and after improving, finally creating the utility model had practical value.

Summary of the invention

The purpose of this utility model is providing a kind of EO-1 hyperion gondola, solve current collection and store the manoevreability of the system of high-spectrum remote sensing data and all very poor problem of compact, make it have high integration and light, the demand of different aviation flight platform can be met.

The purpose of this utility model adopts following technical scheme to realize.The utility model provides a kind of EO-1 hyperion gondola, the collection being applied to Airborne Hyperspectral remotely-sensed data stores, and comprises casing, adapter plate, control processor, high light spectrum image-forming optical spectrometer, lithium cell and supply module thereof, trigger module, GPS assist inertial navigation, solid state hard disc and UBS telltale; Wherein, this adapter plate is fixed on the inside of casing; This control processor, high light spectrum image-forming optical spectrometer, supply module, trigger module and UBS telltale are fixed on built-in adapter plate, and this GPS assists inertial navigation and lithium cell to be fixed on casing bottom; Concrete, this control processor is connected with high light spectrum image-forming optical spectrometer, this lithium cell is connected by supply module with control processor, high light spectrum image-forming optical spectrometer, with unified power supply, this trigger module and GPS assist inertial navigation to be connected with control processor through RS232 serial port transform USB module, this solid state hard disc is inserted on control processor, and this UBS telltale is connected with control processor.

The purpose of this utility model can also be further achieved by the following technical measures.

Aforesaid EO-1 hyperion gondola, wherein this control processor selects embedded Intel DC3217IYE a new generation NUC computer platform.

Aforesaid EO-1 hyperion gondola, wherein this EO-1 hyperion gondola also comprises UBS frog.

Aforesaid EO-1 hyperion gondola, wherein this control processor is preset with VGA video interface, is connected with graphical display.

Aforesaid EO-1 hyperion gondola, wherein this casing is provided with mechanical joints.

Aforesaid EO-1 hyperion gondola, wherein this casing is provided with two groups of mechanical jointses, and one group of mechanical joints is pipe link and hanging piece, is located at the top of casing, and another group mechanical joints is multiple coupling nuts, is located at the bottom of casing.

Aforesaid EO-1 hyperion gondola, wherein on this casing, also reserved data downloads communication port and charge port.

Aforesaid EO-1 hyperion gondola, wherein this casing is provided with thermovent.

The utility model compared with prior art has obvious advantage and beneficial effect.By technique scheme, the utility model has following advantages and beneficial effect:

1, EO-1 hyperion gondola of the present utility model, the each funtion part rely on high-spectrum remote sensing data collection and storage and module integration are in a small-sized casing, form complete Hyperspectral imager, achieve integrated level high, lightweight, compact and do not rely on the advantage of external computer;

2, EO-1 hyperion gondola of the present utility model, can gather simultaneously and store high-spectrum remote sensing data and with each two field picture location information one to one, location information comprises the attitude parameter (driftage, rolling, pitching) etc. of gps data (longitude, latitude), altitude information, aircraft;

3, on EO-1 hyperion gondola of the present utility model, electrical connection and mechanical connection are integrated, additionally provide mechanical joints easily, can carry out being connected and fixing with flying platform better, manoevreability be high.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to technological means of the present utility model can be better understood, and can be implemented according to the content of specification sheets, and can become apparent to allow above and other object of the present utility model, feature and advantage, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Fig. 1: be the front perspective view of EO-1 hyperion gondola of the present utility model.

Fig. 2: be the rear perspective schematic diagram of EO-1 hyperion gondola of the present utility model.

Fig. 3: be the schematic perspective view of casing of the present utility model.

[main element nomenclature]

1: casing 2: adapter plate

3: control processor 4: high light spectrum image-forming optical spectrometer

5: lithium cell 5a: supply module

6: trigger module 7:GPS assists inertial navigation

8: solid state hard disc 9:UBS telltale

10:UBS frog 11: mechanical joints

11a: pipe link and hanging piece 11b: coupling nut

12: thermovent

Detailed description of the invention

For further setting forth the utility model for the technological means reaching predetermined goal of the invention and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to according to a kind of its detailed description of the invention of EO-1 hyperion gondola, structure, feature and the effect thereof that the utility model proposes, be described in detail as follows.

Consult shown in Fig. 1, Fig. 2 and Fig. 3, Fig. 1 is the front perspective view of EO-1 hyperion gondola of the present utility model, and Fig. 2 is the rear perspective schematic diagram of EO-1 hyperion gondola of the present utility model, and Fig. 3 is the schematic perspective view of casing of the present utility model; This EO-1 hyperion gondola comprises casing 1, adapter plate 2, control processor 3, high light spectrum image-forming optical spectrometer 4, lithium cell 5 and supply module 5a thereof, trigger module 6, GPS assist inertial navigation 7, solid state hard disc 8 and UBS telltale 9.

Wherein, this adapter plate 2 is fixed on the inside of casing 1, such as, fix by screw; This control processor 3, high light spectrum image-forming optical spectrometer 4, trigger module 6 and UBS telltale 9 are fixed on built-in adapter plate 2, and this GPS assists inertial navigation 7 and lithium cell 5 to be fixed on casing 1 bottom, such as, fix by screw.

Concrete, this control processor 3 can select embedded Intel DC3217IYE a new generation NUC computer platform, the high-spectrum remote sensing data collection storing software that interior loading is special, realizes the process to high-spectrum remote sensing data.This high light spectrum image-forming optical spectrometer 4 is connected with control processor 3, and Real-time Collection high-spectrum remote sensing data (comprising high-spectrum remote sensing data) also returns to control processor 3; This trigger module 6 is connected with control processor 3 through RS232 serial port transform USB module, and operationally, communications protocol is RS232 agreement, realizes the trigging control to control processor 3, such as, adopt high potential to trigger; This GPS assists inertial navigation 7 to be connected with control processor 3 through RS232 serial port transform USB module equally, and operationally, communications protocol adopts RS232 agreement, and returns gps data and flight attitude parameter to control processor 3.In the utility model, because this high light spectrum image-forming optical spectrometer 4 and GPS assist inertial navigation 7 to have fixing mechanical connection relation, therefore this high light spectrum image-forming optical spectrometer 4 and GPS assist the position deviation of inertial navigation 7 to be definite values, can avoid deviation during processing data.

This lithium cell 5 is connected by supply module 5a with control processor 3, high light spectrum image-forming optical spectrometer 4, realizes the power supply to control processor 3 and coupling assembling thereof, and namely realize unified power supply to EO-1 hyperion gondola, this supply module 5a is fixed on adapter plate 2.Detailed, this supply module 5a mainly comprises DC-DC module, power module VI-J01-CY, power module VI-J00-CY, insulating power supply VI-J01-IX and barrier assembly V28B24M150BL, each component part links together, and realizes the unified power supply of lithium cell to each component part of EO-1 hyperion gondola.

This solid state hard disc 8 (not shown) is inserted on control processor 3, for the high-spectrum remote sensing data that this control processor 3 of real-time storage receives.This UBS telltale 9 (not shown) is connected with control processor 3, uses UBS agreement, and realizes man-machine interaction by its touch-screen.In order to realize shuangping san, the control processor 3 of this EO-1 hyperion gondola is also preset with VGA video interface, for being connected with graphical display, to facilitate viewing.

And above-mentioned high light spectrum image-forming optical spectrometer 4, trigger module 6, supply module 5a, GPS assist inertial navigation 7 and UBS telltale 9 to be adopt USB interface with the connection of control processor 3.The few problem of USB interface on this control processor 3 is overcome in order to practical requirement, this EO-1 hyperion gondola also comprises UBS frog 10, so that a USB interface is converted to multiple USB interface, meet actual demand, and the kind of concrete UBS frog, the utility model is not limited.

In the utility model, this casing 1 is provided with mechanical joints 11, and this mechanical joints is used for the connection between EO-1 hyperion gondola and flying platform; Concrete, this casing 1 is provided with two groups of mechanical jointses, one group of mechanical joints is pipe link and hanging piece 11a, is located at the top of casing 1, can be used for EO-1 hyperion gondola to be lifted on below flying platform, realize its manoevreability, another group mechanical joints is multiple coupling nut 11b, is located at the bottom of casing 1, can be used for EO-1 hyperion gondola to be lifted on aircraft interior, namely according to actual conditions, different lifting modes can be selected.

In addition, this casing 1 is also reserved data and download communication port and charge port; Communication port is downloaded by these data, realize the connection between this control processor 3 and statistical conversion object computer, gigabit network cable can be adopted, use ICP/IP protocol, statistical conversion object computer and control processor 3 are formed local area network, realize the high-speed downloads of data, namely realize high-speed downloads by gigabit LAN; And by this charge port, external communication electricity (220V alternating current) or special electric power system can be charged to lithium cell, thus ensure the power supply to overall EO-1 hyperion gondola, make it work alone.Meanwhile, in order to protect the control processor 3, high light spectrum image-forming optical spectrometer 4 etc. of this casing 1 inside, this casing 1 is provided with thermovent 12, avoids the temperature of casing 1 inside too high.

Generally speaking, EO-1 hyperion gondola of the present utility model, the each funtion part rely on high-spectrum remote sensing data collection and storage and module integration are in a small-sized casing, form complete Hyperspectral imager, achieve integrated level high, lightweight, compact and do not rely on the advantage of external computer, and can gather simultaneously and store high-spectrum remote sensing data and with each two field picture location information one to one, location information comprises the attitude parameter (driftage, rolling, pitching) etc. of gps data (longitude, latitude), altitude information, aircraft.In addition, this EO-1 hyperion gondola additionally provides mechanical joints easily, can carry out being connected and fixing with flying platform better, manoevreability be high.

The above, it is only preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, although the utility model discloses as above with preferred embodiment, but and be not used to limit the utility model, any those skilled in the art, do not departing within the scope of technical solutions of the utility model, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from technical solutions of the utility model, according to any simple modification that technical spirit of the present utility model is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (8)

1. an EO-1 hyperion gondola, the collection being applied to Airborne Hyperspectral remotely-sensed data stores, and it is characterized in that it comprises casing, adapter plate, control processor, high light spectrum image-forming optical spectrometer, lithium cell and supply module thereof, trigger module, GPS assist inertial navigation, solid state hard disc and UBS telltale;

Wherein, this adapter plate is fixed on the inside of casing; This control processor, high light spectrum image-forming optical spectrometer, supply module, trigger module and UBS telltale are fixed on built-in adapter plate, and this GPS assists inertial navigation and lithium cell to be fixed on casing bottom;

Concrete, this control processor is connected with high light spectrum image-forming optical spectrometer, this lithium cell is connected by supply module with control processor, high light spectrum image-forming optical spectrometer, with unified power supply, this trigger module and GPS assist inertial navigation to be connected with control processor through RS232 serial port transform USB module, this solid state hard disc is inserted on control processor, and this UBS telltale is connected with control processor.

2. EO-1 hyperion gondola according to claim 1, is characterized in that wherein this control processor selects embedded Intel DC3217IYE a new generation NUC computer platform.

3. EO-1 hyperion gondola according to claim 1 and 2, is characterized in that wherein this EO-1 hyperion gondola also comprises UBS frog.

4. EO-1 hyperion gondola according to claim 1, is characterized in that wherein this control processor being preset with VGA video interface, is connected with graphical display.

5. EO-1 hyperion gondola according to claim 1, is characterized in that wherein this casing is provided with mechanical joints.

6. EO-1 hyperion gondola according to claim 5, it is characterized in that wherein this casing is provided with two groups of mechanical jointses, one group of mechanical joints is pipe link and hanging piece, is located at the top of casing, another group mechanical joints is multiple coupling nuts, is located at the bottom of casing.

7. EO-1 hyperion gondola according to claim 1, it is characterized in that wherein on this casing also reserved data download communication port and charge port.

8. EO-1 hyperion gondola according to claim 1, is characterized in that wherein this casing is provided with thermovent.