CN114158242B - Intelligent analysis system for nine-dimensional remote sensing image - Google Patents

Abstract

The invention belongs to the field of remote sensing, in particular to a nine-dimensional remote sensing image intelligent analysis system, which aims at the problems of low heat dissipation efficiency and easy blockage by impurities in the prior art, and provides a scheme which comprises a data processing server and a heat dissipation assembly, wherein the data processing server comprises a remote sensing data receiving module, a remote sensing image processing module, a Global Mapper module, a distributed database, a map data module and a Web service module, the heat dissipation assembly comprises a water cooling tank and a water pump communicated with the bottom of the water cooling tank, the air pump can guide outside cold air into the water cooling tank through a microporous air exhaust, a speed reduction motor can drive a movable mechanism to rotate through an inclined wheel, a path that bubbles float upwards is increased through the movable mechanism, so that more heat is taken away, the heat dissipation effect of cooling liquid in the water cooling tank is enhanced, the movable mechanism can filter the cooling liquid sucked by the water pump through a filtering mechanism, and the filtering effect is enhanced through the filtering mechanism in a motion state.

Description

Intelligent analysis system for nine-dimensional remote sensing image

Technical Field

The invention relates to the technical field of remote sensing, in particular to an intelligent analysis system for nine-dimensional remote sensing images.

Background

The invention discloses a geographic information visual analysis system for high-resolution remote sensing images, which is disclosed by the patent with the application number of CN201810957193.8, and comprises an overall system construction, a remote sensing data processing module and a target detection module; the system architecture accords with the visualization of mass remote sensing data and the requirements on high efficiency and reliability of storage and sharing, and a functional visualization sharing system is established; aiming at the problems of massive information processing and key target position information extraction of remote sensing data caused by big datamation of remote sensing satellite images, a target detection algorithm for accurately capturing the key target position information is provided under the condition of ensuring the detection speed.

However, the existing geographic information visualization analysis system for high-resolution remote sensing images also has some problems, for example, after long-term operation, the heat dissipation device fails to work, so that the system is overheated, the running speed of the system is influenced, the efficiency of remote sensing data analysis is reduced, the running stability of the system is reduced, and a water-cooled discharge pipe is easily blocked by impurities, so that the cooling liquid is not communicated smoothly, and the cooling effect is influenced.

Disclosure of Invention

Based on the technical problems that the heat dissipation device fails after long-term operation, the operation stability of the system is reduced, and a water-cooled discharge pipe is easily blocked by impurities in the background technology, the invention provides the nine-dimensional remote sensing image intelligent analysis system.

The invention provides a nine-dimensional remote sensing image intelligent analysis system which comprises a data processing server and a heat dissipation assembly, wherein the data processing server comprises a remote sensing data receiving module, a remote sensing image processing module, a Global Mapper module, a distributed database, a map data module and a Web service module, the heat dissipation assembly comprises a water pump communicated with the bottom of a water cooling tank, a support is connected between two sides of the bottom of the water cooling tank in a bolted mode, an air pump is fixedly installed inside the support, the output end of the air pump penetrates through a hole in the bottom of the water cooling tank and is communicated with a microporous air exhaust, a speed reduction motor is fixedly installed at the top of the water cooling tank, the output end of the speed reduction motor penetrates through a hole in the top of the water cooling tank and is fixedly sleeved with an inclined wheel, the surface of the inclined wheel is connected with a movable mechanism in a sliding mode, the right side of the bottom end inside the water cooling tank is connected with a filtering mechanism in a bolted mode, the air pump can guide outside cold air into the water cooling tank through the microporous air exhaust, the movable mechanism can drive the movable mechanism to rotate, and further increase the path of bubbles floating upwards by the movable mechanism, so that more heat is taken away, the heat dissipation effect of cooling liquid in the water cooling tank is enhanced by the water pump, and the filtering mechanism.

Preferably, the remote sensing data receiving module is used for receiving remote sensing data, the remote sensing image processing module is used for processing remote sensing original signals, generating an interference graph, generating a related graph, generating a height graph, generating a surface deformation graph and generating a natural risk graph, the generated interference graph can be subjected to geocoding and land utilization analysis, the Global Mapper module is used for processing GIS raster images and vector data, the distributed database is used for storing data, the map data module provides map information of all parts of the earth, the Web service module provides functions of map display, image processing task display and analysis result display, the output end of the remote sensing data receiving module is respectively in one-way electrical connection with the input ends of the remote sensing image processing module, the Global Mapper module and the distributed database, the output ends of the remote sensing image processing module and the Global Mapper module are both in two-way electrical connection with the input end of the distributed database, the map data module is stored in the distributed database, and the output end of the distributed database is both in two-way electrical connection with the input end of the Web service module.

Preferably, moving mechanism includes U type frame, regulation pole, sprocket, chain, driving plate, balladeur train and fly leaf, the inside of U type frame and the surface sliding connection of banking pulley, the bottom of U type frame and the top integrated processing of adjusting the pole, the bottom of adjusting the pole and the rear side bolt of sprocket, the outside of sprocket and the surface meshing of chain, the both ends of chain respectively with the top and the bottom bolt on driving plate right side, the middle-end of driving plate is connected with the inside rotation of water-cooling tank, the quantity of balladeur train is two, the top and the bottom on driving plate surface respectively with the right-hand member sliding connection of two balladeur trains, the rear side of balladeur train and the inside sliding connection of water-cooling tank, the front side of balladeur train is articulated with the hole of fly leaf rear side, adjust pole and filtering mechanism meshing, U type frame can drive the sprocket through adjusting the pole and reciprocate, the sprocket can drive the driving plate through the chain and move just reverse, and the driving plate can drive through the fly leaf and remove, and is blockked the slope rotation by the spacing bubble of coolant liquid to increase the route of motion.

Preferably, the filtering mechanism comprises a double gear, a transmission wheel, a connecting plate, a hinged plate, a guide rod, a filtering plate and a filtering cylinder, wherein the axis of the double gear is rotatably connected with the inside of the water cooling tank, the tooth surface of the double gear is meshed with the right side of the adjusting rod, the right side of the double gear is meshed with the left side of the transmission wheel, the axis of the transmission wheel is rotatably connected with the inside of the water cooling tank, the front side of the transmission wheel is movably connected with the rear side of the connecting plate, a hole at the rear side of the connecting plate is hinged with the inside of the water cooling tank, the bottom end of the connecting plate is hinged with the top end of the hinged plate, the bottom end of the hinged plate is hinged with the top end of the guide rod, the bottom end of the guide rod is bolted with the top end of the filtering plate, the surface of the filtering plate is slidably connected with the inside of the filtering cylinder, the bottom of the filtering cylinder is communicated with the input end of the water pump, the double gear can drive the connecting plate to rotate through the transmission wheel, the connecting plate can drive the guide rod to rotate through the hinged plate, and the guide rod can filter the cooling liquid passing through the filtering plate.

Preferably, the top and the bottom of U type frame inside all rotate and are connected with the gyro wheel, the left side of tilting wheel top and bottom respectively with the surperficial sliding connection of two gyro wheels, the gyro wheel is used for connecting tilting wheel and U type frame, lets the two direct contact not, utilizes the rotation reduction friction of gyro wheel and tilting wheel contact in-process, ensures the driven smooth and easy of structure.

Preferably, the sliding surface of adjusting the pole is connected with the sliding sleeve, the rear side of sliding sleeve and the inside bolt of water-cooling tank, the sliding sleeve can slide spacing to the adjusting lever, lets the adjusting lever can only reciprocate, and the guarantee is adjusted the pole and can be driven the chain through the sprocket and rotate to the transmission of guarantee structure.

Preferably, the chain is V type structure, the sprocket is located the right side of driving plate middle-end, and the structure of chain makes things convenient for the drive of sprocket, because the sprocket is adjusted the pole spacing and can not rotate, just can drive the both ends motion of chain at the sprocket in-process that reciprocates to drive the driving plate and rotate.

Preferably, the top and the bottom of the surface of the transmission plate are both provided with a sliding hole, the convex block at the right end of the sliding frame is in sliding connection with the inside of the sliding hole, and the transmission plate is connected with the sliding frame through the sliding hole and the convex block, so that the transmission plate can drive the sliding frame to move left and right stably, and the phenomena of blocking and the like between the sliding frame and the transmission plate are avoided.

Preferably, the top end of the connecting plate inclines leftwards, the top end of the hinged plate inclines rightwards, the inclination of the connecting plate enables the driving wheel to drive the connecting plate to rotate conveniently, the inclination of the hinged plate enables the connecting plate to drive the hinged plate to rotate conveniently, and the guide rod can be driven to move vertically in the rotating process of the hinged plate.

Preferably, the top intercommunication of water-cooling tank has the blast pipe, the blast pipe corresponds with the micropore gas drainage, the bottom of micropore gas drainage and the inside bottom joint of water-cooling tank, the blast pipe is used for discharging the inside hot-air of water-cooling tank to the internally mounted multilayer water-stop film of blast pipe, the coolant liquid can not pass through, and the air can normally pass through, and the blast pipe can set the check valve structure to, avoids the air to get into the water-cooling tank from the top of blast pipe.

The invention has the beneficial effects that: the air pump passes through the micropore gas row and can leads into the water-cooling tank with external cold air, and gear motor can drive the movable mechanism through the tilting wheel and rotate, utilizes the movable mechanism to increase the bubble path that upwards flutters to take away more heats, the reinforcing is to the radiating effect of the inside coolant liquid of water-cooling tank, and the movable mechanism can filter the coolant liquid that the water pump absorb through filter mechanism, and utilizes motion state's filter mechanism reinforcing filter effect.

Drawings

Fig. 1 is a schematic front view of an intelligent nine-dimensional remote sensing image analysis system according to the present invention;

FIG. 2 is a schematic diagram of a dual gear structure of the intelligent nine-dimensional remote sensing image analysis system provided by the present invention;

fig. 3 is a schematic structural diagram of a carriage of the intelligent nine-dimensional remote sensing image analysis system according to the present invention;

FIG. 4 is a schematic diagram of a three-dimensional structure of an adjusting rod of the intelligent analysis system for nine-dimensional remote sensing images according to the present invention;

fig. 5 is a schematic perspective view of a carriage of the intelligent nine-dimensional remote sensing image analysis system according to the present invention;

fig. 6 is a system schematic diagram of the nine-dimensional remote sensing image intelligent analysis system provided by the invention.

In the figure: the remote sensing image processing system comprises a data processing server 1, a heat dissipation assembly 2, a remote sensing data receiving module 3, a Global Mapper module 4, a distributed database 5, a map data module 6, a remote sensing image processing module 7, an 8-gear moving mechanism, a model U frame, an 82 adjusting rod, a 83 chain wheel, an 84 chain, an 85 transmission plate, a 86 sliding frame, a 87 moving plate, a 9 filtering mechanism, a 91 double gear, a 92 transmission wheel, a 93 connecting plate, a 94 hinged plate, a 95 guide rod, a 96 filter plate, a 97 filter cylinder, a 10 water cooling tank, an 11 water pump, a 12 support, a 13 air pump, a 14 microporous air exhaust, a 15 speed reducing motor, a 16 tilting wheel, a 17 roller, an 18 sliding sleeve and a 19 Web service module.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Examples

Referring to fig. 1-6, the embodiment provides an intelligent analysis system for nine-dimensional remote sensing images, which includes a data processing server 1 and a heat dissipation assembly 2, wherein the heat dissipation assembly 2 is a water cooling device and is connected to each heating assembly of the data processing server 1 by using a water cooling cable, the data processing server 1 includes a remote sensing data receiving module 3, a remote sensing image processing module 7, a Global Mapper module 4, a distributed database 5, a map data module 6 and a Web service module 19, the remote sensing data receiving module 3 is a common receiver, the remote sensing data receiving module 3 is used for receiving remote sensing data and can actively or passively receive remote sensing data transmitted by a remote sensing satellite, the remote sensing image processing module 7 is used for processing a remote sensing original signal, generating an interference graph, generating a related graph, generating a height graph, generating surface deformation and generating a natural risk graph, and can perform geocoding and land utilization analysis on the generated interference graph, the remote sensing image processing module 7 selects mature remote sensing image processing software on the market, the Global Mapper module 4 is used for processing GIS raster images and vector data, the Global Mapper module is Global Mapper software, the distributed database 5 is used for storing data, the map data module 6 is used for providing map information of all regions of the earth, the map data module 6 is map data of all the geographic software on the market or data inside a national map database, the Web service module 19 is used for providing map display, image processing task display and analysis result display functions, the output end of the remote sensing data receiving module 3 is respectively and unidirectionally electrically connected with the input ends of the remote sensing image processing module 7, the Global Mapper module 4 and the distributed database 5, the output ends of the remote sensing image processing module 7 and the Global Mapper module 4 are both bidirectionally electrically connected with the input end of the distributed database 5, the map data module 6 is stored inside the distributed database 5, the output end of the distributed database 5 is electrically connected with the input end of the Web service module 19 in a bidirectional way, the heat dissipation assembly 2 comprises a water cooling tank 10 and a water pump 11 communicated with the bottom of the water cooling tank 10, the water pump 11 is commonly used by water cooling equipment, the water outlet of the water pump 11 is connected with a shunt flat cable and is conveyed to a water cooling head near the heating assembly through various cooling liquid conveying pipes, a support 12 is bolted between two sides of the bottom of the water cooling tank 10, an air pump 13 is fixedly installed inside the support 12, the air inlet end of the air pump 13 filters the entering air by using a multilayer filtering technology to avoid leading the air mixed with dust into the water cooling tank 10, the output end of the air pump 13 penetrates through a hole in the bottom of the water cooling tank 10 and is communicated with a micropore air exhaust 14, structures such as a one-way valve and a water-proof membrane are arranged inside the micropore air exhaust 14 to prevent the cooling liquid from entering the micropore exhaust 14, the top of the water cooling tank 10 is fixedly provided with a reducing motor 15, the output end of the reducing motor 15 penetrates through a hole on the top of the water cooling tank 10 and is fixedly sleeved with an inclined wheel 16, the front side of the inclined wheel 16 inclines upwards and then inclines downwards, the left side of the inclined wheel 16 moves upwards and downwards in the rotating process of the inclined wheel 16, so that the movable mechanism 8 can be driven to operate, the surface of the inclined wheel 16 is connected with the movable mechanism 8 in a sliding manner, the inclined wheel 16 can drive the movable mechanism 8 to operate, the right side of the bottom end inside the water cooling tank 10 is connected with a filtering mechanism 9 in a bolting manner, the filtering mechanism 9 is communicated with a water pump 11, the movable mechanism 8 can drive the filtering mechanism 9 to rotate, the movable mechanism 8 comprises a U-shaped frame 81, an adjusting rod 82, a chain wheel 83, a chain 84, a driving plate 85, a sliding frame 86 and movable plates 87, the movable plates 87 can be arranged in multiple numbers as required, and the connection part of the movable plates 87 and the sliding frame 86 is positioned on the upper half part of the movable plates 87, the top end and the bottom end of the inside of the U-shaped frame 81 are both rotatably connected with the roller wheels 17, the left sides of the top and the bottom of the tilting wheel 16 are respectively connected with the surfaces of the two roller wheels 17 in a sliding manner, the roller wheels 17 are used for connecting the tilting wheel 16 and the U-shaped frame 81 and preventing the two from directly contacting, friction is reduced by the rotation of the roller wheels 17 in the contact process with the tilting wheel 16, the smooth transmission of the structure is ensured, the inside of the U-shaped frame 81 is connected with the surface of the tilting wheel 16 in a sliding manner, the bottom of the U-shaped frame 81 and the top end of the adjusting rod 82 are integrally processed, the tilting wheel 16 can drive the U-shaped frame 81 to move up and down, the U-shaped frame 81 can drive the adjusting rod 82 to move up and down, the sliding sleeve 18 is connected with the surface of the adjusting rod 82 in a sliding manner, the rear side of the sliding sleeve 18 is connected with the inside of the water cooling box 10, the sliding sleeve 18 can limit the sliding of the adjusting rod 82 in a sliding manner, the adjusting rod 82 can only move up and down the adjusting rod 82 can drive the chain 84 to rotate through the chain wheel 83, thereby ensuring the transmission of the structure, the bottom end of the adjusting rod 82 is bolted with the rear side of the chain wheel 83, the outer side of the chain wheel 83 is meshed with the surface of the chain 84, the adjusting rod 82 can drive the chain wheel 83 to move up and down, the chain wheel 83 can drive the chain 84 to move, two ends of the chain 84 are respectively bolted with the top end and the bottom end on the right side of the transmission plate 85, the chain 84 can drive the transmission plate 85 to rotate, the chain 84 is in a V-shaped structure, the chain wheel 83 is positioned on the right side of the middle end of the transmission plate 85, the structure of the chain 84 facilitates the driving of the chain wheel 83, the chain wheel 83 is limited by the adjusting rod 82 and can not rotate, two ends of the chain 84 can be driven to move in the process of moving up and down of the chain wheel 83, thereby driving the transmission plate 85 to rotate, the middle end of the transmission plate 85 is rotatably connected with the inside of the water cooling box 10, the number of the carriages 86 is two, the top end and the bottom of the surface of the transmission plate 85 are respectively connected with the right ends of the two carriages 86 in a sliding manner, the transmission plate 85 can drive the carriage 86 to move left and right, the rear side of the carriage 86 is connected with the inside of the water cooling tank 10 in a sliding manner, the carriage 86 is limited to slide with the water cooling tank 10 through a slide rail, the carriage 86 can only move left and right, slide holes are formed in the top and the bottom of the surface of the transmission plate 85, a bump at the right end of the carriage 86 is connected with the inside of the slide hole in a sliding manner, the transmission plate 85 is connected with the carriage 86 through the slide hole and the bump, the transmission plate 85 can drive the carriage 86 to move left and right stably, the phenomena of jamming and the like between the carriage 86 and the transmission plate 85 are avoided, the front side of the carriage 86 is hinged with a hole in the rear side of the movable plate 87, the adjusting rod 82 is meshed with the filtering mechanism 9, the U-shaped frame 81 can drive the chain wheel 83 to move up and down through the adjusting rod 82, the chain wheel 83 can drive the transmission plate 85 to rotate forward and backward through the chain 84, the transmission plate 85 can drive the movable plate 87 to move left and right through the carriage 86, the movable plate 87 is limited by the cooling liquid to prevent the inclined rotation, thereby increasing the path of the movement of bubbles, the filtering mechanism 9 comprises a double gear 91, a driving wheel 92, a connecting plate 93, a hinge plate 94, a guide rod 95, a filtering plate 96 and a filtering cylinder 97, the double gear 91 is composed of a pinion at the front side and a bull gear at the rear side of the pinion, the axis center of the double gear 91 is rotatably connected with the inside of the water cooling tank 10, the tooth surface of the double gear 91 is meshed with the right side of the adjusting rod 82, the double gear 91 is connected with the adjusting rod 82 through the pinion, the adjusting rod 82 can drive the double gear 91 to rotate, the right side of the double gear 91 is meshed with the left side of the driving wheel 92, the double gear 91 is connected with the driving wheel 92 through the bull gear, the driving wheel 91 is convenient to drive the driving wheel 92 to rotate, the axis center of the driving wheel 92 is rotatably connected with the inside of the water cooling tank 10, the front side of the driving wheel 92 is movably connected with the rear side of the connecting plate 93, the connecting plate 93 is connected with the driving wheel 92 in a sliding way through a long hole, the driving wheel 92 can drive the connecting plate 93 to rotate, a hole at the rear side of the connecting plate 93 is hinged with the inside of the water cooling box 10, the bottom end of the connecting plate 93 is hinged with the top end of the hinged plate 94, the connecting plate 93 can drive the hinged plate 94 to rotate, the top end of the connecting plate 93 inclines leftwards, the top end of the hinged plate 94 inclines rightwards, the inclination of the connecting plate 93 facilitates the driving wheel 92 to drive the connecting plate 93 to rotate, the inclination of the hinged plate 94 facilitates the connecting plate 93 to drive the hinged plate 94 to rotate, and can drive the guide rod 95 to move upwards and downwards in the rotating process of the hinged plate 94, the bottom end of the hinged plate 94 is hinged with the top end of the guide rod 95, the bottom end of the guide rod 95 is bolted with the top end of the filter plate 96, the surface of the filter plate 96 is connected with the inside of the filter cylinder 97 in a sliding way, and the bottom of the filter cylinder 97 is communicated with the input end of the water pump 11, the double gears 91 can drive the connecting plate 93 to rotate through the driving wheels 92, the connecting plate 93 can drive the guide rod 95 to rotate through the hinged plate 94, the guide rod 95 can filter the cooling liquid passing through the filter cartridge 97 through the filter plate 96, the top of the water cooling box 10 is communicated with the exhaust pipe, the exhaust pipe corresponds to the microporous air exhaust 14, the bottom of the microporous air exhaust 14 is clamped with the bottom end inside the water cooling box 10, the exhaust pipe is used for exhausting hot air inside the water cooling box 10, the exhaust pipe is internally provided with a plurality of layers of water-stop films, the cooling liquid cannot pass through the exhaust pipe, the air can normally pass through the exhaust pipe, the exhaust pipe can be arranged into a one-way valve structure to prevent the air from entering the water cooling box 10 from the top of the exhaust pipe, the air pump 13 can guide the external cold air into the water cooling box 10 through the microporous air exhaust pipe 14, the speed reduction motor 15 can drive the movable mechanism 8 to rotate through the bevel wheels 16, and the movable mechanism 8 is utilized to increase the path of upward air bubbles, thereby take away more heats, the reinforcing is to the radiating effect of the inside coolant liquid of water-cooling tank 10, and movable mechanism 8 can filter the coolant liquid that water pump 11 absorbed through filter mechanism 9 to utilize filter mechanism 9 reinforcing filter effect of motion state.

The working principle is as follows: the inside of the water cooling tank 10 is filled with cooling liquid, the power of the water pump 11, the air pump 13 and the speed reducing motor 15 is connected, the water pump 11 is connected with each component of the data processing server 1 through a cooling flat cable, the cooling liquid in the water cooling tank 10 is conveyed to each component for heat absorption and cooling, the cooling water after heat absorption enters the water cooling tank 10 again, so that the cooling liquid in the water cooling tank 10 becomes hot, the air pump 13 is started, the air pump 13 guides outside air into the microporous air exhaust 14, the air is exhausted into the bottom of the cooling liquid through micropores of the microporous air exhaust 14 to form fine bubbles, the speed reducing motor 15 can drive the tilting wheel 16 to rotate, the tilting wheel 16 drives the U-shaped frame 81 to move up and down by utilizing the tilting structure of the tilting wheel 16, the roller 17 reduces friction, the U-shaped frame 81 drives the adjusting rod 82 to move up and down, the adjusting rod 82 slides and limits in the inside the sliding sleeve 18, the adjusting rod 82 drives the chain wheel 83 to move up and down, the chain wheel 83 drives the chain 84 to move left and right, the chain 84 drives the driving plate 85 to rotate forward and backward, the driving plate 85 drives the sliding frame 86 to move left and right, the sliding frame 86 drives the movable plate 87 to move left and right, the movable plate 87 rotates and tilts due to the resistance of the cooling liquid, bubbles can only bypass the tilted movable plate 87, so that the path of upward floating of the bubbles is increased, the time for air to absorb heat is increased, more heat is absorbed, air mixed with heat finally enters the top of the water cooling box 10 and is discharged from the exhaust pipe, the adjusting rod 82 can drive the double-gear 91 to rotate in the process of moving up and down, the double-gear 91 can drive the driving wheel 92 to rotate, the driving wheel 92 can drive the connecting plate 93 to rotate, the connecting plate 93 can drive the hinged plate 94 to rotate, the hinged plate 94 can drive the guide rod 95 to move up and down, and the guide rod 95 drives the filter plate 96 to vibrate up and down in the filter cartridge 97, so just increased the filter 96 and to the filterable route of coolant liquid, can be better filter the coolant liquid, also can avoid the impurity of crossing the filter simultaneously to block up filter 96 to influence the flow of coolant liquid.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. Nine dimension remote sensing image intelligence analytic system, its characterized in that, including data processing server (1) and radiator unit (2), data processing server (1) is including remote sensing data receiving module (3), remote sensing image processing module (7), global Mapper module (4), distributed database (5), map data module (6) and Web service module (19), radiator unit (2) are including water pump (11) of water-cooling tank (10) and water-cooling tank (10) bottom intercommunication, bolted support (12) between the both sides of water-cooling tank (10) bottom, the inside fixed mounting of support (12) has air pump (13), the hole and the intercommunication of water-cooling tank (10) bottom of output of air pump (13) have micropore gas row (14), the top fixed mounting of water-cooling tank (10) has gear motor (15), the hole and the fixed cover that the output of gear motor (15) runs through water-cooling tank (10) top have connect with tilting wheel (16), the surface slip swing joint of tilting wheel (16) has movable mechanism (8), the inside movable bolt (81) of water-cooling tank (10) has the adjustable rod (82), the chain mechanism (83), the chain (82) is connected with the right side chain wheel (18), the adjustable lever (9), the chain mechanism (82), the chain mechanism (9) is connected with, the water cooling device comprises a transmission plate (85), a sliding frame (86) and a movable plate (87), wherein the inner part of a U-shaped frame (81) is connected with the surface of an inclined wheel (16) in a sliding mode, the bottom of the U-shaped frame (81) is integrally machined with the top end of an adjusting rod (82), the bottom end of the adjusting rod (82) is bolted with the rear side of a chain wheel (83), the outer side of the chain wheel (83) is meshed with the surface of a chain (84), two ends of the chain (84) are respectively bolted with the top end and the bottom end of the right side of the transmission plate (85), the middle end of the transmission plate (85) is connected with the inner part of a water cooling box (10) in a rotating mode, the number of the sliding frame (86) is two, the top end and the bottom of the surface of the transmission plate (85) are respectively connected with the right ends of the two carriages (86) in a sliding manner, the rear sides of the carriages (86) are connected with the inside of the water cooling tank (10) in a sliding manner, the front sides of the carriages (86) are hinged with the holes in the rear sides of the movable plates (87), the adjusting rods (82) are meshed with the filtering mechanism (9), the filtering mechanism (9) comprises a double gear (91), a transmission wheel (92), a connecting plate (93), a hinged plate (94), a guide rod (95), a filtering plate (96) and a filtering cylinder (97), the axis of the double gear (91) is rotatably connected with the inside of the water cooling tank (10), and the tooth surface of the double gear (91) is meshed with the right side of the adjusting rod (82), the right side of the double gear (91) is meshed with the left side of the driving wheel (92), the axis of the driving wheel (92) is rotatably connected with the inside of the water cooling box (10), the front side of the driving wheel (92) is connected with the rear side of the connecting plate (93) in a sliding mode, a hole in the rear side of the connecting plate (93) is hinged to the inside of the water cooling box (10), the bottom end of the connecting plate (93) is hinged to the top end of the hinged plate (94), the bottom end of the hinged plate (94) is hinged to the top end of the guide rod (95), the bottom end of the guide rod (95) is bolted to the top end of the filter plate (96), the surface of the filter plate (96) is connected with the inside of the filter cylinder (97) in a sliding mode, and the bottom of the filter cylinder (97) is communicated with the input end of the water pump (11).

2. The nine-dimensional remote sensing image intelligent analysis system according to claim 1, wherein the remote sensing data receiving module (3) is used for receiving remote sensing data, the remote sensing image processing module (7) is used for processing remote sensing original signals, generating interference maps, generating related maps, generating height maps, generating surface deformation maps and generating natural risk maps, and can perform geocoding and land utilization analysis on the generated interference maps, the Global Mapper module (4) is used for performing GIS raster image and vector data processing, the distributed database (5) is used for storing data, the map data module (6) provides map information of all parts of the earth, the Web service module (19) provides functions of map display, image processing task display and analysis result display, the output end of the remote sensing data receiving module (3) is respectively and unidirectionally and electrically connected with the input ends of the remote sensing image processing module (7), the Global Mapper module (4) and the distributed database (5), the output ends of the remote sensing image processing module (7) and the Global Mapper module (4) are respectively and unidirectionally and electrically connected with the input ends of the distributed database (5), and the output end of the distributed database (6) is electrically connected with the input end of the distributed database (5) and the bidirectional and the distributed database (5) is electrically connected with the input end of the distributed database (6) and the bidirectional and the distributed database (5) of the distributed database module (19) and the distributed database (6) is electrically connected with the bidirectional and the distributed database data processing module.

3. The intelligent nine-dimensional remote sensing image analysis system according to claim 1, wherein rollers (17) are rotatably connected to the top end and the bottom end of the inside of the U-shaped frame (81), and the left sides of the top and the bottom of the inclined wheel (16) are respectively connected with the surfaces of the two rollers (17) in a sliding manner.

4. The intelligent nine-dimensional remote sensing image analysis system according to claim 1, wherein a sliding sleeve (18) is connected to the surface of the adjusting rod (82) in a sliding mode, and the rear side of the sliding sleeve (18) is bolted to the inside of the water cooling tank (10).

5. The intelligent nine-dimensional remote sensing image analysis system according to claim 1, wherein the chain (84) is of a V-shaped structure, and the chain wheel (83) is positioned on the right side of the middle end of the transmission plate (85).

6. The nine-dimensional remote sensing image intelligent analysis system according to claim 1, wherein slide holes are formed in the top and the bottom of the surface of the transmission plate (85), and a protruding block at the right end of the sliding frame (86) is connected with the inside of each slide hole in a sliding mode.

7. The intelligent nine-dimensional remote sensing image analysis system according to claim 1, wherein the top end of the connecting plate (93) is inclined to the left, and the top end of the hinged plate (94) is inclined to the right.

8. The nine-dimensional remote sensing image intelligent analysis system according to claim 1, wherein an exhaust pipe is communicated with the top of the water cooling tank (10), the exhaust pipe corresponds to the microporous exhaust row (14), and the bottom of the microporous exhaust row (14) is clamped with the bottom end inside the water cooling tank (10).

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