CN220983834U - Remote sensing image fuses processing equipment fast - Google Patents

Abstract

The utility model belongs to the technical field of remote sensing images, in particular to a rapid fusion processing device for remote sensing images, which comprises a shell, wherein a water cooling assembly is arranged in the shell, the rapid fusion processing device also comprises an air cooling assembly arranged in the shell, the air cooling assembly comprises a motor arranged in the shell, an output shaft of the motor is fixedly connected with a sleeve, and a containing groove is formed in the shell; the dustproof plate can be used for dustproof the filter screen of the processing equipment when the processing equipment is not used and placed by utilizing the cooperation of the threaded sleeve and the threaded rod, so that the filter screen is prevented from being blocked to influence heat dissipation when the processing equipment is used next time, the installation component is prevented from being added at the same time, and the characteristics of installing the processing equipment by utilizing the cooperation of the installation plate and the threaded hole.

Description

Remote sensing image fuses processing equipment fast

Technical Field

The utility model belongs to the technical field of remote sensing images, and particularly relates to a rapid fusion processing device for remote sensing images.

Background

Image fusion refers to an image processing technology for extracting beneficial information in each channel to the greatest extent by image processing, computer technology and the like on image data of the same target acquired by a multi-source channel, wherein in the image fusion process, an image processor with higher registration is required, and the existing fusion processing equipment generates a certain temperature during use due to higher performance of the processor, and the temperature is not timely discharged, so that the high-temperature operation of the processor is caused to reduce the operation rate, and the fusion processing speed is reduced;

Through the notice number: CN217821498U discloses a remote sensing image rapid fusion processing device, and in this technology, "including an image processing host body: the rear side of the image processing host body is fixedly provided with a cold row, and the back surface of the image processing host body is provided with technical schemes such as an air cooling heat dissipation assembly; the device has the technical effects of performing water cooling heat dissipation on the easily-heated part inside the main body of the image processing machine and the like;

Although the existing processing equipment can perform water-cooling heat dissipation on the position which is easy to heat inside the main body of the image processing machine, when the processing equipment is not used, dust is stuck to the surface of the air inlet filter screen due to the fact that the air inlet filter screen is exposed outside, the filter screen is blocked, and the heat dissipation effect of the air inlet filter screen is affected;

In order to solve the above problems, the present application provides a rapid fusion processing device for remote sensing images.

Disclosure of utility model

To solve the problems set forth in the background art. The utility model provides a rapid fusion processing device for remote sensing images, which has the characteristics that a filter screen of the processing device can be dustproof by a dustproof plate when the processing device is not used and placed, so that the filter screen is prevented from being blocked to influence heat dissipation when the processing device is used next time.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the rapid fusion processing equipment for the remote sensing images comprises a shell, wherein a water cooling assembly is arranged in the shell, and the rapid fusion processing equipment also comprises an air cooling assembly arranged in the shell;

The air cooling assembly comprises a motor arranged inside a shell, an output shaft of the motor is fixedly connected with a sleeve, an accommodating groove is formed in the shell, the sleeve is inserted into the sleeve and is connected with the shell in a rotating mode, one end of the sleeve, which is far away from the output shaft of the motor, is fixedly connected with a screw sleeve, the screw sleeve is connected with a screw in a threaded mode, one end of the screw sleeve is fixedly connected with a fixing block, the bottom surface of the fixing block is fixedly connected with a sliding rod, a heat dissipation groove is formed in the shell and is communicated with the accommodating groove, a sliding block is inserted into the heat dissipation groove and is connected with the shell in a sliding mode, the sliding rod is fixedly connected with a dust-proof plate in a rotating mode, and the inside of the sliding block is connected with the dust-proof plate in a rotating mode.

As the remote sensing image rapid fusion processing equipment is preferable, the screw rod is inserted into the sleeve through the threaded sleeve, the sliding block is of a concave structure, and the dust-proof plate is inserted into the concave structure.

As the remote sensing image rapid fusion processing equipment is preferable, a first filter plate is arranged in the heat dissipation groove, and the first filter plate is positioned at a position of the dust-proof plate, which is close to one side of the sliding rod.

As the remote sensing image rapid fusion processing equipment disclosed by the utility model, preferably, the surface of the sleeve is fixedly connected with a first driven wheel, the surface of the first driven wheel is sleeved with a driven belt and is in meshed connection with the driven belt, the inside of the heat dissipation groove is provided with fan blades, the fan blades are rotatably connected to the surface of the fixed plate through a rotating shaft, the surface of the rotating shaft is fixedly connected with a second driven wheel, and the second driven wheel is in meshed connection with the driven belt.

As the remote sensing image rapid fusion processing equipment is preferable, the side, far away from the heat dissipation groove, of the shell is provided with the air passing groove, the fan is installed in the air passing groove, a first clamping block is fixedly connected to the inside of the air passing groove, a second clamping block is inserted into the right surface of the first clamping block, and a second filter plate is arranged between the first clamping block and the second clamping block.

As the remote sensing image rapid fusion processing equipment, the utility model is preferable, and further comprises a mounting component arranged on the surface of the shell;

The installation assembly comprises an installation plate fixedly connected to the surface of the shell, and a plurality of screw holes are uniformly formed in the surface of the installation plate.

Compared with the prior art, the utility model has the beneficial effects that: the air cooling assembly is added to the utility model, so that the dustproof plate can be used for dustproof the filter screen of the processing equipment when the processing equipment is not used and placed, the filter screen is prevented from being blocked to influence heat dissipation when the processing equipment is used next time, the installation assembly is prevented from being added at the same time, and the characteristics of installing the processing equipment can be utilized by the cooperation of the installation plate and the screw holes.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a vertical cross-section of the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is a schematic view of the structure of the dust guard and slider of the present utility model;

FIG. 5 is a schematic view of the structure of the screw in the present utility model;

In the figure:

1. a housing; 11. a water cooling assembly;

2. An air cooling assembly; 21. a heat sink; 22. a dust-proof plate; 23. a fan blade; 24. a first filter plate; 25. a slide block; 26. a slide bar; 27. a screw; 28. a motor; 29. a receiving groove; 210. a fixed block; 211. a first driven wheel; 212. a sleeve; 213. a driven belt; 214. a second driven wheel; 215. a wind passing groove; 216. a blower; 217. a first clamping block; 218. a second clamping block; 219. a second filter plate; 220. screw sleeve

3. A mounting assembly; 31. a mounting plate; 32. screw holes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1 to 5;

a remote sensing image rapid fusion processing device comprises a shell 1, wherein a water cooling assembly 11 is arranged in the shell 1;

In this embodiment: through the notice number: CN217821498U discloses a remote sensing image rapid fusion processing device, although the existing processing device can perform water cooling heat dissipation to the position which is easy to generate heat inside the main body of the image processing machine, when not in use, dust can be stuck on the surface of the main body due to the exposure of an air inlet filter screen outside, the filter screen can be blocked, the heat dissipation effect is affected, and in order to solve the technical problem, the air cooling component 2 and the installation component 3 are added on the basis of the technical problem.

It should be noted that: the water cooling assembly 11 is formed by the following bulletin numbers: cold head, water course piece, liquid circulation subassembly, miniature water pump, deposit liquid case, cold liquid pipe, hot liquid pipe, communicating pipe in CN217821498U are constituteed, and water-cooling module 11's theory of use reference bulletin number: CN217821498U is not described in detail herein.

Further, the method comprises the following steps:

as shown in fig. 1 to 5;

in combination with the above:

In order to prevent dust from blocking a filter screen when the processing equipment is placed, the remote sensing image rapid fusion processing equipment also comprises an air cooling component 2 arranged in the shell 1;

the air cooling assembly 2 comprises a motor 28 arranged inside a shell 1, an output shaft of the motor 28 is fixedly connected with a sleeve 212, an accommodating groove 29 is formed in the shell 1, the sleeve 212 is inserted into the sleeve 212 and is rotationally connected with the shell 1, one end, far away from the output shaft of the motor 28, of the sleeve 212 is fixedly connected with a threaded sleeve 220, a screw rod 27 is connected with the inner thread of the threaded sleeve 220, one end, far away from the threaded sleeve 220, of the screw rod 27 is fixedly connected with a fixing block 210, the bottom surface of the fixing block 210 is fixedly connected with a slide rod 26, a heat dissipation groove 21 is formed in the shell 1 and is communicated with the accommodating groove 29, a slide block 25 is inserted into the heat dissipation groove 21 and is in sliding connection with the shell 1, the slide rod 26 is fixedly connected with the slide block 25, and the inside of the slide block 25 is rotationally connected with a dust-proof plate 22.

In this embodiment: the sleeve 212 connected with the output shaft of the motor 28 is started after the motor 28 is connected with an external power supply, the screw sleeve 220 is driven to rotate by the sleeve 212, the screw 27 screwed inside the screw sleeve 220 moves away from the dust-proof plate 22 due to the fact that the fixed block 210 connected with the screw sleeve is limited by the shape of the containing groove 29, the screw 27 moves towards the inside of the sleeve 212, the slide rod 26 moves to slide inside the heat-dissipating groove 21 until the thread of the screw 27 is not connected with the screw sleeve 220 any more, the slide block 25 does not move any more, and the dust-proof plate 22 inserted inside the slide block 25 moves and is limited by the first filter plate 24 to rotate inside the slide block 25.

It should be noted that: when the treatment apparatus is required to be not used, the motor 28 is turned over, and the dust-proof plate 22 seals the heat radiation groove 21 to prevent dust from entering inside.

Still further, the method comprises:

In an alternative embodiment, the screw 27 is inserted into the sleeve 212 through the screw sleeve 220, the slider 25 is of a concave structure, and the dust-proof plate 22 is inserted into the concave structure.

In this embodiment: the screw 27 is a half-threaded rod, so that when the sleeve 212 rotates in one direction, the sleeve 220 and the screw 27 are prevented from being locked due to the fact that the sleeve is in threaded connection with each other, and the sliding block 25 is of a concave structure, so that the dust-proof plate 22 can rotate in the inner portion of the sliding block.

Still further, the method comprises:

In an alternative embodiment, the interior of the heat sink 21 mounts a first filter plate 24, the first filter plate 24 being located on the side of the dust guard 22 adjacent the slide bar 26.

In this embodiment: when air is sucked in, the first filter sheet 24 filters out dust in the air.

Still further, the method comprises:

In an alternative embodiment, the surface of the sleeve 212 is fixedly connected with a first driven wheel 211, the surface of the first driven wheel 211 is sleeved with a driven belt 213 and is in meshed connection with the first driven wheel, the fan blades 23 are arranged in the heat dissipation groove 21, the fan blades 23 are rotatably connected to the surface of the fixed plate through rotating shafts, the surface of the rotating shaft of the fan blades is fixedly connected with a second driven wheel 214, and the second driven wheel 214 is in meshed connection with the driven belt 213.

In this embodiment: the sleeve 212 rotates and simultaneously drives the first driven wheel 211 fixed on the surface of the sleeve to rotate, the first driven wheel 211 rotates and drives the second driven wheel 214 to rotate through the driven belt 213 meshed with the first driven wheel 211, the second driven wheel 214 rotates and drives the fan blades 23 to rotate on the surface of the fixed plate with the rotating shaft as the axis, and air is sucked from the outside and blown into the shell 1.

Still further, the method comprises:

In an alternative embodiment, a wind passing groove 215 is formed on one surface of the housing 1 away from the heat dissipation groove 21, a fan 216 is installed in the wind passing groove 215, a first clamping block 217 is fixedly connected in the wind passing groove 215, a second clamping block 218 is inserted on the right surface of the first clamping block 217, and a second filter plate 219 is arranged between the first clamping block 217 and the second clamping block 218.

In this embodiment: when the motor 28 is started and the fan 216 is connected with an external power supply and then started, the fan 216 rotates in the air passing groove 215, when the fan 216 blows air outwards from the inside of the shell 1, the second filter plate 219 filters out external dust, and when the second filter plate 219 needs to be cleaned, the second clamping block 218 is forced, so that the second clamping block 218 is pulled out from the surface of the first clamping block 217, and the second filter plate 219 clamped between the second clamping block 218 can be taken out for cleaning.

Still further, the method comprises:

In an alternative embodiment, the device further comprises a mounting assembly 3 arranged on the surface of the housing 1;

The mounting assembly 3 comprises a mounting plate 31 fixedly connected to the surface of the shell 1, and a plurality of screw holes 32 are uniformly formed in the surface of the mounting plate 31.

In this embodiment: the mounting plate 31 is placed on the table top and the shell 1 is then bolted to its table top through the screw holes 32.

Still further, the method comprises:

The working principle and the using flow of the utility model are as follows: the mounting plate 31 is placed on a table top, then the shell 1 is fixed on the table top through the screw holes 32 by bolts, then when the shell 1 is operated to generate heat, the motor 28 is connected with an external power supply and then started, the sleeve 212 connected with the output shaft of the motor 28 starts to rotate, the threaded sleeve 220 is driven to rotate by the sleeve 212, the screw 27 screwed inside the threaded sleeve 220 moves away from the dust-proof plate 22 due to the fact that the fixed block 210 connected with the threaded sleeve is limited by the shape of the accommodating groove 29, the screw 27 moves towards the inside of the sleeve 212, the slide bar 26 moves to slide inside the heat-dissipating groove 21 with the slide block 25 until the thread of the screw 27 is no longer connected with the threaded sleeve 220, the slide block 25 does not move any more, the dust-proof plate 22 inserted inside the slide block 25 moves and is limited by the first filter plate 24 to rotate inside the slide block 25, the sleeve 212 rotates and simultaneously drives the first driven wheel 211 fixed on the surface of the sleeve, the first driven wheel 211 rotates and drives the second driven wheel 214 to rotate through the driven belt 213 meshed with the first driven wheel 211, the second driven wheel 214 rotates and drives the fan blades 23 to rotate on the surface of the fixed plate around the rotating shaft, air is sucked into the shell 1 from the outside, heat dissipation of the inside is realized, when the air is sucked, the first filter plate 24 filters dust in the air, the fan 216 is connected with an external power supply and then started while the motor 28 is started, the fan 216 rotates in the air passing groove 215, when the fan 216 blows air outwards from the inside of the shell 1, the second filter plate 219 filters the external dust, when the second filter plate 219 needs to be cleaned, the second filter plate 218 is forced, the second filter plate 218 is pulled out from the surface of the first filter plate 217, the second filter plate 219 sandwiched therebetween can be taken out for cleaning.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a remote sensing image fuses treatment facility fast, includes casing (1), the inside of casing (1) is provided with water-cooling component (11), its characterized in that: the air cooling device also comprises an air cooling assembly (2) arranged inside the shell (1);

The air cooling assembly (2) comprises a motor (28) arranged inside a shell (1), an output shaft of the motor (28) is fixedly connected with a sleeve (212), a containing groove (29) is formed in the shell (1), the sleeve (212) is inserted into the sleeve (212) and is rotationally connected with the shell (1), the sleeve (212) is far away from one end of the output shaft of the motor (28) and is fixedly connected with a screw sleeve (220), a screw rod (27) is connected with the inner thread of the screw sleeve (220), one end of the screw rod (27) is far away from the screw sleeve (220) and is fixedly connected with a fixing block (210), a slide rod (26) is fixedly connected with the bottom surface of the fixing block (210), a radiating groove (21) is formed in the shell (1) and is communicated with the containing groove (29), a sliding block (25) is inserted into the inside of the radiating groove (21) and is slidingly connected with the shell (1), and the slide rod (26) is fixedly connected with a dust-proof plate (22) which is rotationally connected with the inside of the sliding block (25).

2. The remote sensing image rapid fusion processing device according to claim 1, wherein: the screw rod (27) is inserted into the sleeve (212) through the threaded sleeve (220), the sliding block (25) is of a concave structure, and the dust-proof plate (22) is inserted into the concave structure.

3. The remote sensing image rapid fusion processing device according to claim 1, wherein: the inside of the heat dissipation groove (21) is provided with a first filter plate (24), and the first filter plate (24) is positioned at a position of the dust-proof plate (22) close to one side of the slide rod (26).

4. The remote sensing image rapid fusion processing device according to claim 1, wherein: the surface of sleeve (212) is fixedly connected with first follow driving wheel (211), the surface cover of first follow driving wheel (211) is equipped with driven belt (213) and is connected rather than the meshing, the inside of heat dissipation groove (21) is provided with flabellum (23), flabellum (23) are rotated through the pivot and are connected on the surface of fixed plate, and the surface fixed connection of its pivot has second follow driving wheel (214), second follow driving wheel (214) with driven belt (213) meshing is connected.

5. The remote sensing image rapid fusion processing device according to claim 1, wherein: the utility model discloses a fan, including casing (1), radiating groove (21) and second filter plate (218), air groove (215) have been seted up to the one side of casing (1) keeping away from air groove (21), the internally mounted of air groove (215) has fan (216), the inside fixedly connected with of air groove (215) first fixture block (217), the right surface grafting of first fixture block (217) has second fixture block (218), first fixture block (217) with be provided with second filter plate (219) between second fixture block (218).

6. The remote sensing image rapid fusion processing device according to claim 1, wherein: the device also comprises a mounting assembly (3) arranged on the surface of the shell (1);

The mounting assembly (3) comprises a mounting plate (31) fixedly connected to the surface of the shell (1), and a plurality of screw holes (32) are uniformly formed in the surface of the mounting plate (31).