CN109922240B - Farmland is from monitoring devices who clears away stain based on big data - Google Patents

Abstract

The invention discloses a monitoring device for automatically clearing stains in farmland based on big data, which structurally comprises a dirt removing and dust blocking mirror, a baffle plate, a protective cover and a machine body, wherein the dirt removing and dust blocking mirror is in clearance fit with the machine body and comprises an outer mirror surface, a protective shell, a rocking rod, an auxiliary shaft, a sensing end, an induction receiving end and a camera head end, when a monitor positioned in the farmland is placed for a long time, a main rod of the dirt removing and dust blocking mirror drives an extension bullet shell to rotate together, when the dirt removing and dust blocking mirror rotates to a position with insufficient original length, the extension bullet shell supported by a one-way convex rod loses resistance, a one-way arc push rod is used for assisting and boosting the extension bullet shell, the extension sliding body is extended together, after the monitoring device is wiped for a certain distance, the extension sliding body returns to the same distance, gas is squeezed into an extension soft skin for buffering and releasing, when the monitoring device is properly installed, the extension bullet shell flows back into a bag to be pressed to wait for next operation, when fly excrement exists, the device can be scraped off in time, cannot be placed for a long time and is difficult to treat, and even the monitoring effect is not influenced.

Description

Farmland is from monitoring devices who clears away stain based on big data

Technical Field

The invention belongs to the field of big data, and particularly relates to a farmland self-cleaning stain monitoring device based on big data.

Background

At present, the positions of a plurality of farmlands are remote, the environment of the farmlands is usually observed through monitoring, the air of the farmlands is wet, a plurality of fertilizers are arranged at the bottoms of the farmlands, and the number of flies introduced is large.

Based on the findings of the inventor, the existing farmland environment monitoring based on big data mainly has the following defects, such as:

when the fly moves in the farmland of monitoring range, can stop on supervisory equipment more easily, glue its excrement on the monitoring lens easily, not only difficult clearance has just influenced the monitoring effect for a long time.

Therefore, a monitoring device for automatically removing the stains in the farmland based on big data needs to be provided.

Disclosure of Invention

In order to solve the problems that in the prior art, when the flies move in the farmland within the monitoring range, the flies can easily stay on the monitoring equipment, excrement of the flies is easily stuck on the monitoring lens, and the flies are difficult to clear after a long time and the monitoring effect is influenced.

The invention relates to a monitoring device for automatically removing stains in farmland based on big data, which has the purpose and the effect and is achieved by the following specific technical means:

the structure of the dust-proof cleaning machine comprises a dirt-removing dust-blocking mirror, a baffle, a protective cover and a machine body.

The dirt and dust removing mirror is in clearance fit with the machine body, the protective cover is attached to the top end of the machine body, and the protective cover and the baffle are of an integrated structure.

The dirt-removing dust-blocking mirror comprises an outer mirror surface, a protective shell, a shaking rod, an auxiliary shaft, a sensing end, an induction receiving end and a camera head end, wherein the shaking rod is connected with the outer mirror surface, the outer mirror surface is positioned inside the protective shell, the auxiliary shaft penetrates through the sensing end, the sensing end is connected with the induction receiving end, the shaking rod supports the outer surface of the outer mirror surface, and the camera head end is connected with the induction receiving end.

As a further improvement of the invention, the rocking rod comprises an extension cartridge case, a one-way push angle, a main rod, a dragging air bag and an adsorption pressing ball, wherein the one-way push angle is connected with the extension cartridge case, the dragging air bag is positioned in the main rod, the adsorption pressing ball is arranged in the dragging air bag and movably connected with the dragging air bag, the adsorption pressing ball is connected with the one-way push angle, and the dragging air bag is made of rubber and is impermeable material and has certain flexibility.

As a further improvement of the invention, the extension cartridge case comprises a tilting groove, two elastic tilting rods and two extension sliding bodies, wherein the two elastic tilting rods are positioned in the tilting groove and movably connected with each other, the tilting groove is embedded in the extension sliding body, and the number of the two elastic tilting rods is two.

As a further improvement of the invention, the unidirectional push angle comprises a rubber angle, a unidirectional arc push rod, a sponge buffer layer and a unidirectional convex rod, the rubber angle is attached to the unidirectional arc push rod, the sponge buffer layer is positioned on the outer surface of the unidirectional convex rod, the unidirectional convex rod is connected with the rubber angle through the unidirectional arc push rod, and the unidirectional convex rod is of an arc-shaped structure.

As a further improvement of the invention, the elastic tilting and pressing rod comprises a rebound inner angle, a main pressing strip, a hook strip and a main core, wherein the rebound inner angle is embedded in the main pressing strip, the main pressing strip is connected with the hook strip through the main core, and the hook strip is of a eagle hook-shaped structure.

As a further improvement of the invention, the rebound internal angle comprises an expansion groove, an elastic layer, a to-be-pressed bag and an expansion soft leather, wherein the to-be-pressed bag and the expansion soft leather are communicated, the expansion soft leather is positioned in the expansion groove, the to-be-pressed bag is embedded in the elastic layer, and the expansion soft leather is made of a rubber soft material.

Compared with the prior art, the invention has the following beneficial effects:

when a monitor located in a farmland is placed for a long time, fly excrement can be adhered to the outer mirror surface, if the monitor senses that illumination points are not shielded by the fly excrement in the daytime, the main rod of the monitor drives the extension cartridge case to rotate together, when the monitor rotates to a position where the original length is not enough, the extension cartridge case propped by the one-way convex rod loses resistance, the one-way arc push rod assists in boosting the extension cartridge case, the extension sliding body extends, the monitor wipes a distance and returns to the same distance, air is squeezed into the expansion soft skin to be buffered and released, and when the monitor is properly installed, the air flows back into the bag to be pressed to wait for the next operation, the fly excrement can be timely scraped off, the fly excrement cannot be placed for a long time and cannot be handled, and even the monitoring effect is affected.

Drawings

FIG. 1 is a schematic structural diagram of a monitoring device for automatically removing stains from farmland based on big data.

FIG. 2 is a front view of a dust-blocking dirt removing mirror according to the present invention.

FIG. 3 is a schematic diagram of a right-view internal structure of a dirt removing and dust blocking mirror according to the present invention.

FIG. 4 is a schematic front view of the shaking bar according to the present invention.

Fig. 5 is a schematic front view of the internal structure of an extended cartridge case according to the present invention.

Fig. 6 is a schematic front view of an internal structure of a single-direction push angle according to the present invention.

Fig. 7 is a schematic front view of an internal structure of an elastic tilting lever according to the present invention.

FIG. 8 is a schematic view of an interior structure of a rebound interior corner of the present invention in front view.

In the figure: the dust-proof mirror comprises a dirt-removing dust-blocking mirror-1, a baffle-2, a protective cover-3, a body-4, an outer mirror surface-11, a protective shell-12, a sway rod-13, an auxiliary shaft-14, a sensing end-15, a sensing receiving end-16, a camera head end-17, an extension cartridge case-131, a one-way push angle-132, a main rod-133, a dragging air bag-134, an adsorption press ball-135, a tilting groove-1311, an elastic tilting rod-1312, an extension slider-1313, a rubber angle-1321, a one-way arc push rod-1322, a sponge buffer layer-1323, a one-way convex rod-1324, a rebound-13121, a main press strip-inner angle 22, a hook strip-13123, a main core-13124, an expansion groove-131211, an elastic layer-131212, a bag-to-131213 and an expansion soft leather-131214.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 8:

the invention provides a farmland self-cleaning stain monitoring device based on big data, which structurally comprises a dirt removing and dust blocking mirror 1, a baffle 2, a protective cover 3 and a machine body 4.

The dirt and dust removing mirror is characterized in that the dirt and dust removing mirror 1 is in clearance fit with the machine body 4, the protective cover 3 is attached to the top end of the machine body 4, and the protective cover 3 and the baffle 2 are of an integrated structure.

The dirt removing and dust blocking mirror 1 comprises an outer mirror surface 11, a protective shell 12, a shaking rod 13, an auxiliary shaft 14, a sensing end 15, a sensing receiving end 16 and a camera head end 17, wherein the shaking rod 13 is connected with the outer mirror surface 11, the outer mirror surface 11 is located inside the protective shell 12, the auxiliary shaft 14 penetrates through the sensing end 15, the sensing end 15 is connected with the sensing receiving end 16, the shaking rod 13 abuts against the outer surface of the outer mirror surface 11, and the camera head end 17 is connected with the sensing receiving end 16.

The rocking bar 13 includes an extension cartridge case 131, a one-way push angle 132, a main rod 133, a dragging air bag 134 and an adsorption press ball 135, the one-way push angle 132 is connected with the extension cartridge case 131, the dragging air bag 134 is located inside the main rod 133, the adsorption press ball 135 is installed inside the dragging air bag 134 and movably connected with the one-way push angle 132, the dragging air bag 134 is made of rubber and is made of a gas-impermeable material and has a certain flexibility, the extension cartridge case 131 can be extended out at a place where the main rod 133 cannot reach, and when the extension cartridge case 131 loses resistance, the gas inside the dragging air bag 134 assists in pushing and the adsorption press ball 135 does the main pushing force.

The extension bullet case 131 includes a tilting slot 1311, two elastic tilting rods 1312 and two extension sliding bodies 1313, wherein the elastic tilting rods 1312 are located inside the tilting slot 1311 and movably connected to each other, the tilting slot 1311 is embedded inside the extension sliding body 1313, and the extension sliding bodies 1313 are released and assisted by the elastic force of the elastic tilting rods 1312 to elastically move.

The one-way pushing angle 132 comprises a rubber angle 1321, a one-way arc push rod 1322, a sponge buffer layer 1323 and a one-way convex rod 1324, the rubber angle 1321 is attached to the one-way arc push rod 1322, the sponge buffer layer 1323 is located on the outer surface of the one-way convex rod 1324, the one-way convex rod 1324 is connected with the rubber angle 1321 through the one-way arc push rod 1322, the one-way convex rod 1324 is of an arc-shaped structure, the one-way convex rod 1324 expands the pushed stress area by the one-way arc push rod 1322 in the pushing process, the one-way convex rod 1324 can enable the one-way pushing to be more stable, the rubber angle 1321 is used for preventing the one-way convex rod 1324 from sliding inside, and the sponge buffer layer 1323 can enable the one-way convex rod 1324 to be more tightly attached.

The elastic tilting rod 1312 comprises a rebound inner angle 13121, a main pressing strip 13122, a hook strip 13123 and a main core 13124, the rebound inner angle 13121 is embedded into the main pressing strip 13122, the main pressing strip 13122 is connected with the hook strip 13123 through the main core 13124, the hook strip 13123 is of an eagle hook-shaped structure, when the main pressing strip 13122 is pressed, the rebound inner angle 13121 can enable the main pressing strip to obtain corresponding buffering force, and the hook strip 13123 enables the main pressing strip 13122 to have return force.

Wherein, resilience interior angle 13121 includes inflation groove 131211, elastic layer 131212, treats to press bag 131213, expansion soft leather 131214, treat to press bag 131213 and expansion soft leather 131214 to link up each other, expansion soft leather 131214 is located inflation groove 131211 inside, treat that to press bag 131213 imbeds inside elastic layer 131212, expansion soft leather 131214 is made for rubber software material, when elastic layer 131212 atress was extruded, will be buffered the release by treating to press bag 131213 to it, its expansion soft leather 131214 can be kept in the power of its buffering temporarily.

The specific use mode and function of the embodiment are as follows:

in the invention, after the monitor in the farmland is placed for a long time, flies' excrement can be adhered to the outer mirror surface 11, if the sensing receiving end 16 in the monitor senses that the monitor is not shielded by the excrement and the illumination point is not right in the daytime, the sensing end 15 can drive the auxiliary shaft 14 to rotate, so that the main rod 133 can drive the extension bullet shell 131 to rotate together, when the sensing receiving end rotates to the position with insufficient length, the extension bullet shell 131 against the one-way convex rod 1324 loses resistance, the air in the air bag 134 is dragged to push the adsorption pressure ball 135 to expand outwards along the trend, when the one-way convex rod 1324 is pushed out, the one-way arc push rod 1322 carries out auxiliary reinforcement on the extension pressure ball 1322, the extension slide 1313 is extended together, the distance is wiped, the distance is the same, the main pressure bar 13122 is pressed against by the main rod 133 again, the main pressure bar 13122 can be bent by the initial impact, the bag 131213 will be squeezed to push the gas into the expanding bladder 131214 for buffer release, and when properly installed, it will flow back into the bag 131213 for the next operation.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (2)

1. The utility model provides a farmland is from monitoring devices who clears away stain based on big data, its structure includes scrubbing dirt blocking mirror (1), baffle (2), protective cover (3), fuselage (4), scrubbing dirt blocking mirror (1) and fuselage (4) clearance fit, fuselage (4) top laminating has protective cover (3), protective cover (3) and baffle (2) structure as an organic whole, its characterized in that:

the dirt removing and dust blocking mirror (1) comprises an outer mirror surface (11), a protective shell (12), a shaking rod (13), an auxiliary shaft (14), a sensing end (15), an induction receiving end (16) and a camera head end (17), wherein the shaking rod (13) is connected with the outer mirror surface (11), the outer mirror surface (11) is located inside the protective shell (12), the auxiliary shaft (14) penetrates through the inside of the sensing end (15), the sensing end (15) is connected with the induction receiving end (16), the shaking rod (13) abuts against the outer surface of the outer mirror surface (11), and the camera head end (17) is connected with the induction receiving end (16);

the rocking rod (13) comprises an extension cartridge case (131), a one-way push angle (132), a main rod (133), a dragging air bag (134) and an adsorption pressing ball (135), the one-way push angle (132) is connected with the extension cartridge case (131), the dragging air bag (134) is positioned inside the main rod (133), the adsorption pressing ball (135) is installed inside the dragging air bag (134) and movably connected with the dragging air bag, and the adsorption pressing ball (135) is connected with the one-way push angle (132);

the extension cartridge case (131) comprises a tilting groove (1311), an elastic tilting rod (1312) and an extension sliding body (1313), the elastic tilting rod (1312) is located inside the tilting groove (1311) and movably connected with the tilting groove, and the tilting groove (1311) is embedded inside the extension sliding body (1313);

the unidirectional push angle (132) comprises a rubber angle (1321), a unidirectional arc push rod (1322), a sponge buffer layer (1323) and a unidirectional convex rod (1324), the rubber angle (1321) is attached to the unidirectional arc push rod (1322), the sponge buffer layer (1323) is located on the outer surface of the unidirectional convex rod (1324), and the unidirectional convex rod (1324) is connected with the rubber angle (1321) through the unidirectional arc push rod (1322);

the elastic tilting rod (1312) comprises a rebound inner angle (13121), a main pressing strip (13122), a hook strip (13123) and a main core (13124), the rebound inner angle (13121) is embedded into the main pressing strip (13122), and the main pressing strip (13122) is connected with the hook strip (13123) through the main core (13124).

2. The monitoring device for farmland self-cleaning spots based on big data of claim 1, which is characterized in that: the resilience interior angle (13121) comprises an expansion groove (131211), an elastic layer (131212), a to-be-pressed bag (131213) and an expansion soft leather (131214), wherein the to-be-pressed bag (131213) and the expansion soft leather (131214) are communicated, the expansion soft leather (131214) is located inside the expansion groove (131211), and the to-be-pressed bag (131213) is embedded inside the elastic layer (131212).

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