CN114007354A - Intelligent aerial image workstation management system - Google Patents

Abstract

The invention relates to the technical field of data processing devices, in particular to an intelligent aerial image workstation management system, through case lid and box connection, the hasp is connected with the case lid, the hasp is connected with the box, four urceolus and box connection, four damping spring are connected with four urceolus, four first stoppers and four damping spring connection, four inner tubes are connected with four first stoppers, four universal wheels and four inner tube connections, flexible pull rod and box connection, administrative mechanism and box connection, hasp and the box buckle on the case lid are sealed the administrative mechanism in the box, the flexible pull rod on the pulling box, make the universal wheel on the box drive the box and remove toward application of force direction, damping spring in the urceolus absorbs the universal wheel and drives the produced vibrations of box when removing, the administrative mechanism for the box provides stability, the problem that intelligent aerial image workstation management system is not convenient for carry has been solved.

Description

Intelligent aerial image workstation management system

Technical Field

The invention relates to the technical field of data processing devices, in particular to an intelligent aerial image workstation management system.

Background

The image obtained by the aerial craft shooting is stored into an image file after being coded;

the existing intelligent aerial image workstation management system intelligently manages aerial images acquired by an aerial vehicle through a data management module of a management mechanism, and can manually manage data in the data management module through an operation panel of the management mechanism;

however, the management mechanism is directly mounted on the desk and is not convenient to carry.

Disclosure of Invention

The invention aims to provide an intelligent aerial image workstation management system, and aims to solve the problem that the intelligent aerial image workstation management system is inconvenient to carry.

In order to achieve the purpose, the invention provides an intelligent aerial image workstation management system, which comprises a mounting mechanism and a management mechanism, wherein the mounting mechanism is used for mounting an aerial image workstation;

the mounting mechanism comprises a box body, a box cover, a lock catch, four outer barrels, four damping springs, four first limiting blocks, four inner barrels, four universal wheels and a telescopic pull rod, wherein the box cover is rotatably connected with the box body and is positioned on one side of the box body, the box body is provided with a lock groove, one side of the lock catch is rotatably connected with the box cover and is positioned on one side far away from the box body, the other side of the lock catch is connected with the box body through a buckle and is positioned in the lock groove, the box body is also provided with a plurality of air inlets and heat dissipation openings, the four outer barrels are respectively fixedly connected with the box body and are positioned on the outer side wall of the box body, the four damping springs are respectively fixedly connected with the four outer barrels and are positioned inside the outer barrels, the four first limiting blocks are respectively fixedly connected with the four damping springs and are positioned inside the outer barrels, four the inner tube respectively with four first stopper fixed connection all runs through the urceolus, four the universal wheel respectively with four inner tube fixed connection all is located and keeps away from one side of first stopper, flexible pull rod with box fixed connection runs through the box, administrative mechanism with box fixed connection, and be located inside the box.

The lock catch on the box cover is buckled in the lock groove of the box body, the management mechanism is sealed in the box body, the telescopic pull rod on the box body is pulled, the universal wheel on the box body drives the box body to move towards the force application direction, and the damping spring in the outer barrel absorbs the vibration generated when the universal wheel drives the box body to move, so that the stability is provided for the management mechanism in the box body.

The management mechanism comprises a data management module and an operation panel, the data management module is fixedly connected with the box body and is positioned in the box body, the operation panel is fixedly connected with the box cover and is positioned in the box cover, and the operation panel is electrically connected with the data management module.

Data in the data management module can be manually managed through the operation panel on the box cover.

The data management module comprises a data receiving unit, a data processing unit, a storage unit and a display unit, wherein the data receiving unit is fixedly connected with the box body and is positioned inside the box body, the data processing unit is electrically connected with the data receiving unit and is positioned inside the box body, the storage unit is electrically connected with the data processing unit and is positioned inside the box body, the display unit is electrically connected with the storage unit and is positioned inside the box body, and the operation panel is electrically connected with the storage unit.

The data receiving unit receives images obtained by photographing of an aircraft, the data processing unit encodes the data received by the data structure unit and stores the encoded data in the storage unit, the display unit can display image files in the storage unit, and the operation panel can manually manage the data in the storage unit.

Wherein, installation mechanism still includes a plurality of first dust screens, and is a plurality of first dust screen respectively with box fixed connection all is located air intake department.

The first dustproof net can prevent external foreign matters and impurities from entering the box body through the air inlet.

The mounting mechanism further comprises a second dustproof net, and the second dustproof net is fixedly connected with the box body and located at the heat dissipation opening.

The second dust screen can avoid external foreign matters and impurities from entering the box body through the heat dissipation port.

The mounting mechanism further comprises four brake blocks and four anti-skidding rings, the four brake blocks are respectively connected with the four universal wheels in a rotating mode and are all located on the outer side walls of the universal wheels, and the four anti-skidding rings are respectively fixedly connected with the four universal wheels and are all located around the universal wheels.

When the management mechanism is used, the brake pads on the universal wheels are pulled down to enable the universal wheels to be in a braking state, and the anti-skid rings can prevent the universal wheels from sliding with a placing surface in the braking state.

The mounting mechanism further comprises a sealing ring and two standing legs, the sealing ring is fixedly connected with the box cover and is positioned at one side close to the box body, and the two standing legs are respectively fixedly connected with the box cover and are positioned at one side far away from the sealing ring.

The sealing ring on the box body fills a gap between the box cover and the box body when the box body is closed, so that external foreign matters and impurities are prevented from entering the box body from the gap between the box cover and the box body, and the box cover is placed on a placing surface through the standing feet, so that the box cover and the placing surface can be prevented from being damaged due to friction.

According to the intelligent management system for the aerial image workstations, the lock catch on the box cover is buckled in the lock groove of the box body, the management mechanism is sealed in the box body, the telescopic pull rod on the box body is pulled, the universal wheel on the box body drives the box body to move towards the force application direction, the damping spring in the outer cylinder absorbs the vibration generated when the universal wheel drives the box body to move, stability is provided for the management mechanism in the box body, and the problem that the intelligent management system for the aerial image workstations is inconvenient to carry is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an intelligent aerial image workstation management system provided by the present invention;

FIG. 2 is a cross-sectional view of an intelligent aerial image workstation management system according to the present invention, taken along the direction of a data management module;

FIG. 3 is a cross-sectional view of an intelligent aerial image workstation management system according to the present invention taken along the direction of a return spring;

FIG. 4 is an enlarged view of detail A of FIG. 3;

fig. 5 is a sectional view of the outer cylinder, the damper spring, the first stopper, and the inner cylinder.

1-installation mechanism, 2-management mechanism, 3-box body, 4-box cover, 5-lock catch, 6-lock groove, 7-air inlet, 8-heat dissipation port, 9-outer cylinder, 10-damping spring, 11-first limiting block, 12-inner cylinder, 13-universal wheel, 14-telescopic pull rod, 15-data management module, 16-operation panel, 17-data receiving unit, 18-data processing unit, 19-storage unit, 20-display unit, 21-first dust screen, 22-second dust screen, 23-brake pad, 24-anti-slip ring, 25-sealing ring, 26-stand foot, 27-installation cavity, 28-reset spring, 29-second limiting block, 30-dust-proof block, 5-lock catch, 31-a buffer pad, 32-a force application groove, 33-an accommodating cavity, 34-a fixing frame, 35-a motor, 36-a fan blade and 37-an interface.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides an intelligent aerial image workstation management system, which includes a mounting mechanism 1 and a management mechanism 2;

the mounting mechanism 1 comprises a box body 3, a box cover 4, a lock catch 5, four outer cylinders 9, four damping springs 10, four first limit blocks 11, four inner cylinders 12, four universal wheels 13 and a telescopic pull rod 14, wherein the box cover 4 is rotatably connected with the box body 3 and is positioned on one side of the box body 3, the box body 3 is provided with a lock groove 6, one side of the lock catch 5 is rotatably connected with the box cover 4 and is positioned on one side far away from the box body 3, the other side of the lock catch 5 is connected with the box body 3 in a buckling manner and is positioned in the lock groove 6, the box body 3 is further provided with a plurality of air inlets 7 and heat dissipation ports 8, the four outer cylinders 9 are respectively and fixedly connected with the box body 3 and are positioned on the outer side wall of the box body 3, the four damping springs 10 are respectively and fixedly connected with the four outer cylinders 9 and are positioned inside the outer cylinders 9, the four first limit blocks 11 are respectively and fixedly connected with the four damping springs 10, all be located inside the urceolus 9, four inner tube 12 respectively with four first stopper 11 fixed connection all runs through urceolus 9, four universal wheel 13 respectively with four inner tube 12 fixed connection all is located and keeps away from one side of first stopper 11, flexible pull rod 14 with 3 fixed connection of box, and run through box 3, management mechanism 2 with 3 fixed connection of box, and be located inside box 3.

In this embodiment, the management mechanism 2 in the box 3 of the installation mechanism 1 intelligently manages aerial images acquired by an aerial vehicle, heat generated by the management mechanism 2 during operation is discharged from the heat dissipation port 8, cold air enters the box 3 from the air inlet 7 to cool the management mechanism 2, when the management mechanism 2 needs to be carried and transported, the lock catch 5 on the box cover 4 is locked in the lock groove 6 of the box 3 to seal the management mechanism 2 in the box 3, the telescopic pull rod 14 on the box 3 is pulled to drive the universal wheel 13 on the box 3 to drive the box 3 to move in the force application direction, and the inner cylinder 12 transmits the vibration generated by the universal wheel 13 during movement to the damping spring 10 in the outer cylinder 9, damping spring 10 absorbs vibrations do in the box 3 management mechanism 2 provides stability, avoids management mechanism 2 because of vibrations with the installation end of box 3 takes place not hard up, for avoiding damping spring 10 will inner tube 12 is ejecting inside urceolus 9, so be provided with on the inner tube 12 first stopper 11, the diameter of first stopper 11 is greater than the bore of urceolus 9 has solved the problem that intelligent aerial image workstation management system is not convenient for carry.

Further, the management mechanism 2 includes a data management module 15 and an operation panel 16, the data management module 15 is fixedly connected with the box body 3 and is located inside the box body 3, the operation panel 16 is fixedly connected with the box cover 4 and is located inside the box cover 4, and the operation panel 16 is electrically connected with the data management module 15; the data management module 15 includes a data receiving unit 17, a data processing unit 18, a storage unit 19 and a display unit 20, the data receiving unit 17 is fixedly connected to the box 3 and is located inside the box 3, the data processing unit 18 is electrically connected to the data receiving unit 17 and is located inside the box 3, the storage unit 19 is electrically connected to the data processing unit 18 and is located inside the box 3, the display unit 20 is electrically connected to the storage unit 19 and is located inside the box 3, and the operation panel 16 is electrically connected to the storage unit 19.

In the present embodiment, the data receiving unit 17 of the data management module 15 receives an image obtained by photographing an aircraft, the data processing unit 18 encodes the data received by the data structure unit and stores the encoded data in the storage unit 19, the display unit 20 can display an image file in the storage unit 19, and the operation panel 16 on the box cover 4 can manually manage the data in the storage unit 19.

Further, the mounting mechanism 1 further comprises a plurality of first dust screens 21, and the plurality of first dust screens 21 are respectively and fixedly connected with the box body 3 and are all positioned at the air inlet 7; the mounting mechanism 1 further comprises a second dustproof net 22, and the second dustproof net 22 is fixedly connected with the box body 3 and is positioned at the heat dissipation port 8; the mounting mechanism 1 further comprises four brake blocks 23 and four anti-skidding rings 24, the four brake blocks 23 are respectively in rotating connection with the four universal wheels 13 and are all positioned on the outer side walls of the universal wheels 13, and the four anti-skidding rings 24 are respectively in fixed connection with the four universal wheels 13 and are all positioned around the universal wheels 13; the mounting mechanism 1 further comprises a sealing ring 25 and two standing legs 26, wherein the sealing ring 25 is fixedly connected with the box cover 4 and is positioned at one side close to the box body 3, and the two standing legs 26 are respectively fixedly connected with the box cover 4 and are positioned at one side far away from the sealing ring 25.

In this embodiment, the first dust screen 21 can prevent foreign objects and impurities from entering the interior of the box 3 through the air inlet 7, the second dust-proof net 22 can prevent external foreign matters and impurities from entering the interior of the box body 3 through the heat-radiating opening 8, when the management mechanism 2 is used, the brake block 23 on the universal wheel 13 is pulled down to enable the universal wheel 13 to be in a braking state, the anti-slip ring 24 can prevent the universal wheel 13 from sliding with the placing surface in a braking state, the sealing ring 25 on the box body 3 fills the gap between the box cover 4 and the box body 3 when closed, so as to prevent external foreign matters and impurities from entering the box body 3 from the gap between the box cover 4 and the box body 3, the box cover 4 is placed on the placing surface through the standing legs 26, so that the box cover 4 is prevented from being damaged due to friction with the placing surface.

Further, installation mechanism 1 still includes a plurality of reset spring 28, a plurality of second stopper 29, a plurality of dustproof piece 30 and a plurality of blotter 31, box 3 still has a plurality of interfaces 37 and a plurality of installation cavity 27, and is a plurality of reset spring 28 respectively with box 3 fixed connection all is located in installation cavity 27, it is a plurality of second stopper 29 respectively with a plurality of reset spring 28 fixed connection all is located in installation cavity 27, a plurality of dustproof piece 30 respectively with a plurality of second stopper 29 fixed connection all runs through hold chamber 33, a plurality of blotter 31 respectively with a plurality of dustproof piece 30 fixed connection all is located and keeps away from one side of second stopper 29, dustproof piece 30 has application of force groove 32, box 3 still has and holds chamber 33, dustproof piece 30 with hold chamber 33 and agree with.

In this embodiment, the force is applied to the force applying groove 32 on the dust-proof block 30, so that the dust-proof block 30 compresses the return spring 28 to enter the installation cavity 27, until the dust-proof block 30 exposes the interface 37 of the box body 3, that is, the transmission line of the device penetrates through the interface 37 to connect with the storage unit 19 in the box body 3, so as to copy the data in the storage unit 19, the buffer pad 31 between the dust-proof block 30 and the transmission line can buffer the pressure applied to the transmission line by the return spring 28 through the dust-proof block 30 due to the resilience force, so as to protect the transmission line, when no transmission line passes through the interface 37, the return spring 28 in the installation cavity 27 pushes the dust-proof block 30 until the dust-proof block 30 enters the accommodating cavity 33, at this time, the dust-proof block 30 closes the interface 37 of the box body 3, the entrance of external foreign matters and impurities into the box body 3 from the interface 37 can be avoided, the diameter of the second limiting block 29 is larger than the caliber of the installation cavity 27, and the ejection of the reset spring 28 in the dust-proof block 30 into the installation cavity 27 can be avoided.

Further, installation mechanism 1 still includes mount 34, motor 35 and flabellum 36, mount 34 with box 3 fixed connection, and be located thermovent 8 department, motor 35 with mount 34 fixed connection, and be located inside box 3, flabellum 36 with motor 35 output fixed connection.

In this embodiment, the motor 35 on the fixing frame 34 drives the fan blades 36 to rotate so as to accelerate the hot air inside the box 3 to be discharged from the heat dissipation opening 8, and increase the convection velocity of the air in the air inlet 7 and the heat dissipation opening 8, thereby increasing the heat dissipation effect on the management mechanism 2 in the box 3.

In the intelligent aerial image workstation management system of the invention, the management mechanism 2 in the box body 3 of the installation mechanism 1 intelligently manages aerial images acquired by an aerial vehicle, heat generated by the management mechanism 2 during working is discharged from the heat dissipation port 8, cold air enters the box body 3 from the air inlet 7 to cool the management mechanism 2, when the management mechanism 2 needs to be carried and transported, the lock catch 5 on the box cover 4 is clamped in the lock groove 6 of the box body 3, the management mechanism 2 is sealed in the box body 3, the telescopic pull rod 14 on the box body 3 is pulled to enable the universal wheel 13 on the box body 3 to drive the box body 3 to move towards the force application direction, the inner cylinder 12 transmits the vibration generated by the universal wheel 13 during moving to the damping spring 10 in the outer cylinder 9, damping spring 10 absorbs vibrations do in the box 3 management mechanism 2 provides stability, avoids management mechanism 2 because of vibrations with the installation end of box 3 takes place not hard up, for avoiding damping spring 10 will inner tube 12 is ejecting inside urceolus 9, so be provided with on the inner tube 12 first stopper 11, the diameter of first stopper 11 is greater than the bore of urceolus 9 has solved the problem that intelligent aerial image workstation management system is not convenient for carry.

While the invention has been described with reference to a preferred embodiment of an intelligent aerial image workstation management system, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. An intelligent aerial image workstation management system is characterized by comprising an installation mechanism and a management mechanism;

the mounting mechanism comprises a box body, a box cover, a lock catch, four outer barrels, four damping springs, four first limiting blocks, four inner barrels, four universal wheels and a telescopic pull rod, wherein the box cover is rotatably connected with the box body and is positioned on one side of the box body, the box body is provided with a lock groove, one side of the lock catch is rotatably connected with the box cover and is positioned on one side far away from the box body, the other side of the lock catch is connected with the box body through a buckle and is positioned in the lock groove, the box body is also provided with a plurality of air inlets and heat dissipation openings, the four outer barrels are respectively fixedly connected with the box body and are positioned on the outer side wall of the box body, the four damping springs are respectively fixedly connected with the four outer barrels and are positioned inside the outer barrels, the four first limiting blocks are respectively fixedly connected with the four damping springs and are positioned inside the outer barrels, four the inner tube respectively with four first stopper fixed connection all runs through the urceolus, four the universal wheel respectively with four inner tube fixed connection all is located and keeps away from one side of first stopper, flexible pull rod with box fixed connection runs through the box, administrative mechanism with box fixed connection, and be located inside the box.

2. The intelligent aerial image workstation management system of claim 1,

the management mechanism comprises a data management module and an operation panel, the data management module is fixedly connected with the box body and is positioned in the box body, the operation panel is fixedly connected with the box cover and is positioned in the box cover, and the operation panel is electrically connected with the data management module.

3. The intelligent aerial image workstation management system of claim 2,

the data management module comprises a data receiving unit, a data processing unit, a storage unit and a display unit, the data receiving unit is fixedly connected with the box body and is positioned inside the box body, the data processing unit is electrically connected with the data receiving unit and is positioned inside the box body, the storage unit is electrically connected with the data processing unit and is positioned inside the box body, the display unit is electrically connected with the storage unit and is positioned inside the box body, and the operation panel is electrically connected with the storage unit.

4. The intelligent aerial image workstation management system of claim 1,

the installation mechanism further comprises a plurality of first dust screens, and the first dust screens are fixedly connected with the box body and located at the air inlet.

5. The intelligent aerial image workstation management system of claim 1,

the installation mechanism further comprises a second dustproof net, and the second dustproof net is fixedly connected with the box body and located at the heat dissipation opening.

6. The intelligent aerial image workstation management system of claim 1,

the installation mechanism further comprises four brake blocks and four anti-skidding rings, the four brake blocks are respectively in rotating connection with the four universal wheels and are all located on the outer side walls of the universal wheels, and the four anti-skidding rings are respectively in fixed connection with the four universal wheels and are all located around the universal wheels.

7. The intelligent aerial image workstation management system of claim 1,

the mounting mechanism further comprises a sealing ring and two standing legs, the sealing ring is fixedly connected with the box cover and is positioned at one side close to the box body, and the two standing legs are respectively fixedly connected with the box cover and are positioned at one side far away from the sealing ring.

Images