CN111669924A - Information extraction device based on remote sensing image - Google Patents

Abstract

The invention provides an information extraction device based on remote sensing images, which structurally comprises a signal receiving rod, a machine box, a button, a control panel, a display screen and a loudspeaker, the signal receiving rod is arranged at the rear end of the case, and the invention has the advantages that through the arrangement of the stable supporting rod frame structure, thereby playing the role of auxiliary support for the casing, avoiding the deformation of the upper end of the casing after being stressed, and through arranging the waterproof frame structure, under the action of the first absorbent cotton, partial water can be absorbed, when the water source is rushed to the arc-shaped plate, under the action of the second absorbent cotton, water can be adsorbed again, and under the action of the anti-overflow strip, water can impact the anti-overflow strip when being washed upwards, so that the water is scattered, therefore, water can be effectively prevented from entering the interior of the shell, and the water can be effectively prevented from entering the electric element, so that the electric element is damaged by water entering.

Description

Information extraction device based on remote sensing image

Technical Field

The invention relates to the technical field of information extraction, in particular to an information extraction device based on a remote sensing image.

Background

The remote sensing image is a film or a photo recording electromagnetic waves of various ground objects, and is mainly divided into an aerial photo and a satellite photo, and when information of the remote sensing image is received and extracted, the received information is generally required to be preprocessed, and then the processed data is stored and retained, but the prior art has the following defects:

when processing data for a long time, people easily enter into a fatigue state, so that a cup placed beside an information extraction machine is easily overturned, water easily enters into the information extraction machine from a heat dissipation hole, the water flows to a running electric element, and the electric element is burnt.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an information extraction device based on a remote sensing image, which solves the problems that when data is processed for a long time, people are easy to enter a fatigue state, so that a water cup placed beside an information extraction machine is easy to overturn, water is easy to enter the information extraction machine from a heat dissipation hole, the water flows to a running electric element, and the electric element is burnt due to water inflow.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an information extraction element based on remote sensing image, its structure includes signal reception pole, machine box, button, control panel, display screen, speaker, signal reception pole is installed in machine box rear end, the button embedding is installed on control panel and fixed connection, the display screen is inlayed on control panel, the speaker is connected with the machine box electricity, control panel inlays and installs in machine box front end.

Preferably, the machine box comprises a stable supporting rod frame structure, a waterproof frame structure, heat dissipation holes, a machine shell and a sealing plate, wherein the stable supporting rod frame structure is installed inside the machine shell, the waterproof frame structure is installed on two sides in the machine shell, the sealing plate is embedded into the lower end of the machine shell and is mechanically connected with the lower end of the machine shell, and the display screen is embedded into the front end of the machine shell.

As preferred, stabilize strut frame structure and include support frame, chute frame structure, embedding pole, spacing draw runner, the support frame right side welds with embedding pole one end mutually, spacing draw runner welds in the support frame side, spacing draw runner is inlayed in chute frame structure, chute frame structure welds in casing both sides wall, the embedding pole is the cylinder structure, and the upper end is the hemispheroid.

Preferably, the support frame is embedded in the chute frame structure, and ten support frames are arranged in total.

Preferably, the chute frame structure comprises a sliding cavity, a thread groove and connecting strips, the sliding cavity is arranged between the connecting strips, the thread groove and the connecting strips are of an integrated structure, the supporting frame and the limiting sliding strips are embedded in the sliding cavity, and the inner wall of the sliding cavity is of a smooth surface structure.

Preferably, the waterproof frame structure comprises a baffle plate, a drainage frame structure and an anti-overflow plate structure, the baffle plate is welded at the side end of the drainage frame structure and the side end of the anti-overflow plate structure, the right side of the drainage frame structure is welded with the left side of the anti-overflow plate structure, one side of the baffle plate is connected with the inner wall of the casing through glue solution, and the baffle plate is made of stainless steel.

Preferably, the drainage frame structure comprises a filter net frame, first absorbent cotton, a drainage groove and a housing frame, the filter net frame is embedded above the housing frame, the first absorbent cotton is placed above the filter net frame, the drainage groove and the housing frame are of an integrated structure, and the filter net frame is of a rectangular structure and is used for filtering water on the first absorbent cotton.

Preferably, the anti-overflow plate structure comprises an anti-overflow strip, an arc-shaped plate and second water-absorbing cotton, the anti-overflow strip is welded to the inner ring of the arc-shaped plate, one side of the second water-absorbing cotton is bonded to the inner ring of the arc-shaped plate, the side end of the second water-absorbing cotton is bonded to the anti-overflow strip, and the anti-overflow strip is provided with a plurality of strips.

(III) advantageous effects

The invention provides an information extraction device based on a remote sensing image. The method has the following beneficial effects:

1. the upper end of the machine box is easily extruded by external force through the arrangement of the stable support rod frame structure, when the upper end of the machine shell is extruded, the machine shell has downward force, and the upper end of the machine shell is supported by the support frame to avoid sinking, so that the machine shell is supported in an auxiliary way, and the upper end of the machine shell is prevented from deforming after being stressed.

2. The invention has the advantages that through the arrangement of the waterproof frame structure, a water source enters along with the first water absorption cotton on the drainage frame structure, partial water can be absorbed under the action of the first water absorption cotton, the upper end surface of the first water absorption cotton is in a non-smooth state, the flow velocity of the water can be relieved, the phenomenon that the flow velocity of the water to the position of the anti-overflow plate structure is too high is avoided, when the water source is flushed on the arc-shaped plate, the water can be absorbed again under the action of the second water absorption cotton, and under the action of the anti-overflow strip, the water can be impacted on the anti-overflow strip when the water is flushed, so that the water is scattered, the upward flowing velocity of the water is reduced, the flow velocity of the water source is relieved layer by layer, the upper end of the water source is in an arc-shaped structure, when the water source is flushed on the highest point, the water source can fly out from the edge, impact the bottom edge of the upper waterproof frame structure, and then returns to the drainage frame structure, therefore, water can be effectively prevented from entering the interior of the shell, and the water can be effectively prevented from entering the electric element, so that the electric element is damaged by water entering.

Drawings

FIG. 1 is a schematic structural diagram of an information extraction device based on remote sensing images according to the present invention;

FIG. 2 is a front view of the housing of the present invention;

FIG. 3 is a schematic top view of the stabilizing brace support structure of the present invention;

FIG. 4 is a schematic top view of the structure of the chute frame of the present invention;

FIG. 5 is a three-dimensional structural diagram of the waterproof frame structure of the present invention;

FIG. 6 is a front view of the structure of the drainage rack of the present invention;

FIG. 7 is a front view of the spill plate according to the present invention.

In the figure: the device comprises a signal receiving rod-11, a box-22, a button-33, a control panel-44, a display screen-55, a loudspeaker-66, a stable support rod frame structure-C1, a waterproof frame structure-C2, a heat dissipation hole-C3, a machine shell-C4, a sealing plate-C5, a support frame-C11, a sliding groove frame structure-C12, an embedded rod-C13, a limiting sliding strip-C14, a sliding cavity-1C, a threaded groove-2C, a connecting strip-3C, a shielding plate-C21, a drainage frame structure-C22, a spill plate structure-C23, a filter screen frame-221, a first water absorption cotton-222, a drainage groove-223, a machine shell frame-224, a spill strip-231, an arc plate-232 and a second water absorption cotton-233.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1 to 7:

example 1

The embodiment of the invention provides an information extraction device based on remote sensing images, which structurally comprises a signal receiving rod 11, a machine box 22, a button 33, a control panel 44, a display screen 55 and a loudspeaker 66, wherein the signal receiving rod 11 is installed at the rear end of the machine box 22, the button 33 is embedded and installed on the control panel 44 and fixedly connected with the control panel 44, the display screen 55 is embedded on the control panel 44, the loudspeaker 66 is electrically connected with the machine box 22, and the control panel 44 is embedded and installed at the front end of the machine box 22.

The case 22 includes a stable strut structure C1, a waterproof frame structure C2, heat dissipation holes C3, a casing C4, and a sealing plate C5, wherein the stable strut structure C1 is installed inside the casing C4, the waterproof frame structure C2 is installed on two sides of the inside of the casing C4, the sealing plate C5 is embedded in the lower end of the casing C4 and is mechanically connected to the lower end of the casing C4, and the display screen 55 is embedded in the front end of the casing C4.

Wherein, it includes support frame C11, spout frame structure C12, embedding pole C13, spacing draw runner C14 to stabilize brace frame structure C1, support frame C11 right side and embedding pole C13 one end weld mutually, spacing draw runner C14 welds in support frame C11 side, spacing draw runner C14 is inlayed on spout frame structure C12, spout frame structure C12 welds in casing C4 both sides wall, embedding pole C13 is the cylinder structure, and the upper end is the hemispheroid, imbeds in casing C4 inner upper wall simultaneously to this reaches and carries out spacing effect to support frame C11, avoids support frame C11 to produce at will and rocks.

The supporting frame C11 is embedded in the sliding groove frame structure C12, ten supporting frames C11 are arranged, the supporting frame C11 needs to be installed selectively according to the size of the electric elements in the machine shell C4 when being installed, the supporting frame C11 is not required to be installed completely, and the electric elements are prevented from being shielded by the supporting frame C3938.

Wherein, the spout structure C12 includes sliding chamber 1C, thread groove 2C, connecting strip 3C, sliding chamber 1C locates between the connecting strip 3C, thread groove 2C and connecting strip 3C structure as an organic whole, support frame C11 and spacing draw runner C14 are all inlayed in sliding chamber 1C, and sliding chamber 1C inner wall is the smooth surface structure, avoid support frame C11 and spacing draw runner C14 when embedding sliding chamber 1C in, produce the card and pause or inlay the face and produce wearing and tearing.

The specific working process is as follows:

when the remote control image is transmitted from the outside, the transmitted information is received and extracted through the signal receiving rod 11, then, after the information is sent to a data processing center inside the casing 22, the data is filtered and extracted through the button 33, the useful signals are stored, the useless signals can be directly deleted, and because the case 22 is placed outside, the upper end of the case 22 is easily pressed by external force, when the upper end of the casing C4 is pressed, there will be a downward force on the casing C4, and under the action of the support bracket C11, the upper end of the casing C4 is supported to avoid its sinking, and when the supporting frame C11 is assembled, the height of the electric components arranged in the casing C4 is observed, therefore, the support bracket C11 is selected to be installed inside the sliding chamber 1C, and the embedding rod C13 is embedded into the upper end of the casing C4, so that the support bracket C11 is prevented from shielding the installation of the electric elements.

Example 2

The embodiment of the invention provides an information extraction device based on remote sensing images, which structurally comprises a signal receiving rod 11, a machine box 22, a button 33, a control panel 44, a display screen 55 and a loudspeaker 66, wherein the signal receiving rod 11 is installed at the rear end of the machine box 22, the button 33 is embedded and installed on the control panel 44 and fixedly connected with the control panel 44, the display screen 55 is embedded on the control panel 44, the loudspeaker 66 is electrically connected with the machine box 22, and the control panel 44 is embedded and installed at the front end of the machine box 22.

The case 22 includes a stable strut structure C1, a waterproof frame structure C2, heat dissipation holes C3, a casing C4, and a sealing plate C5, wherein the stable strut structure C1 is installed inside the casing C4, the waterproof frame structure C2 is installed on two sides of the inside of the casing C4, the sealing plate C5 is embedded in the lower end of the casing C4 and is mechanically connected to the lower end of the casing C4, and the display screen 55 is embedded in the front end of the casing C4.

Wherein, waterproof rack structure C2 includes shielding plate C21, drainage frame structure C22, anti-overflow plate structure C23, shielding plate C21 welds in drainage frame structure C22 and anti-overflow plate structure C23 side, drainage frame structure C22 right side and anti-overflow plate structure C23 left side weld mutually, shielding plate C21 one side is connected through glue solution with casing C4 inner wall, and adopts stainless steel to make, avoids it to rust by the moisture oxidation.

The drainage rack structure C22 includes a filter rack 221, a first absorbent cotton 222, a drainage trough 223, and a housing rack 224, the filter rack 221 is embedded above the housing rack 224, the first absorbent cotton 222 is placed above the filter rack 221, the drainage trough 223 and the housing rack 224 are integrated, the filter rack 221 is rectangular, and is used for filtering water on the first absorbent cotton 222 and supporting the first absorbent cotton 222.

Wherein, the overflow prevention plate structure C23 includes that overflow prevention strip 231, arc 232, second absorb water cotton 233, overflow prevention strip 231 welds in arc 232 inner ring, the second absorbs water cotton 233 one side and bonds in arc 232 inner ring, the second absorbs water cotton 233 side and bonds on overflow prevention strip 231, overflow prevention strip 231 is equipped with a plurality of, and is used for slowing down the speed of water to arc 232 inner wall upper reaches.

The specific working process is as follows:

when a water cup placed beside the signal extractor is touched, water enters the inside of the machine shell C4 from the heat radiation hole C3, a water source enters along with the first water absorption cotton 222 on the drainage rack structure C22, partial water is absorbed under the action of the first water absorption cotton 222, the flow rate of the water can be relieved due to the fact that the upper end face of the first water absorption cotton 222 is in a non-smooth state, the phenomenon that the flow rate of the water towards the overflow preventing plate structure C23 is too high is avoided, when the water source is rushed onto the arc-shaped plate 232, the water can be absorbed again under the action of the second water absorption cotton 233, the water can be rushed onto the overflow preventing strip 231 when the water rushes onto the overflow preventing strip 231, the water is scattered, the upward flowing speed of the water is reduced, the flow rate of the water source is relieved, the upper end of the water source is of the arc-shaped structure, when the water source rushes up to the highest point, will fly out from the edge and hit the bottom edge of the last waterproof frame structure C2, and then on returning to the drainage frame structure C22, part of the water will flow down the slope of the first absorbent cotton 222, and the rest of the water will pass through the first absorbent cotton 222 into the filter frame 221 and then be discharged from the drainage groove 223.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an information extraction element based on remote sensing image, its structure includes signal reception pole (11), machine box (22), button (33), control panel (44), display screen (55), speaker (66), signal reception pole (11) are installed in machine box (22) rear end, button (33) embedding is installed on control panel (44) and fixed connection, inlay on control panel (44) display screen (55), its characterized in that: the loudspeaker (66) is electrically connected with the machine box (22), and the control panel (44) is embedded and installed at the front end of the machine box (22).

2. The information extraction device based on remote sensing images according to claim 1, characterized in that: machine box (22) are including stabilizing brace frame structure (C1), waterproof frame structure (C2), louvre (C3), casing (C4), shrouding (C5), it installs inside casing (C4) to stabilize brace frame structure (C1), both sides in casing (C4) are installed in waterproof frame structure (C2), shrouding (C5) imbed in casing (C4) lower extreme and through mechanical connection, display screen (55) imbeds in casing (C4) front end.

3. The information extraction device based on remote sensing images according to claim 2, characterized in that: stabilize brace rod frame structure (C1) and include support frame (C11), spout frame structure (C12), embedding pole (C13), spacing draw runner (C14), support frame (C11) right side and embedding pole (C13) one end weld mutually, spacing draw runner (C14) weld in support frame (C11) side, inlay on spout frame structure (C12) spacing draw runner (C14), spout frame structure (C12) welds in casing (C4) both sides wall.

4. The information extraction device based on remote sensing images as claimed in claim 3, characterized in that: the supporting frame (C11) is embedded in the sliding groove frame structure (C12).

5. The information extraction device based on remote sensing images as claimed in claim 3, characterized in that: the sliding groove frame structure (C12) comprises a sliding cavity (1C), a thread groove (2C) and a connecting strip (3C), the sliding cavity (1C) is arranged between the connecting strips (3C), the thread groove (2C) and the connecting strip (3C) are of an integrated structure, and the support frame (C11) and the limiting sliding strip (C14) are embedded in the sliding cavity (1C).

6. The information extraction device based on remote sensing images according to claim 2, characterized in that: waterproof rack structure (C2) includes shielding plate (C21), drainage frame structure (C22), anti-overflow plate structure (C23), shielding plate (C21) weld in drainage frame structure (C22) and anti-overflow plate structure (C23) side, drainage frame structure (C22) right side and anti-overflow plate structure (C23) left side weld mutually, shielding plate (C21) one side is connected through gluey solution with casing (C4) inner wall.

7. The information extraction device based on remote sensing images as claimed in claim 6, wherein: the drainage rack structure (C22) comprises a filter net rack (221), first water absorption cotton (222), a drainage groove (223) and a machine shell rack (224), wherein the filter net rack (221) is embedded above the machine shell rack (224), the first water absorption cotton (222) is placed above the filter net rack (221), and the drainage groove (223) and the machine shell rack (224) are of an integrated structure.

8. The information extraction device based on remote sensing images as claimed in claim 6, wherein: the anti-overflow plate structure (C23) includes anti-overflow strip (231), arc (232), the cotton (233) of absorbing water of second, anti-overflow strip (231) weld in arc (232) inner ring, cotton (233) one side of absorbing water of second bonds in arc (232) inner ring, cotton (233) side of absorbing water of second bonds on anti-overflow strip (231).

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