CN115103089A - Intelligent computer monitoring device based on big data analysis - Google Patents

Abstract

The utility model relates to a computer intelligent monitoring device based on big data analysis, including intelligent surveillance camera head, the top of intelligent surveillance camera head is provided with sunshade collection rain mechanism, sunshade collection rain mechanism includes sunshade collection rain portion at intelligent surveillance camera head top, sunshade collection rain portion is used for carrying out the sunshade to intelligent surveillance camera head when fine day, and sunshade collection rain portion is used for collecting the rainwater when rainy day, the top of sunshade collection rain portion is provided with protection clearance portion, be provided with actuating mechanism in the protection clearance portion. Through the sunshade rain collecting mechanism who sets up, when fine day, the second sunshading board is the level setting with first sunshading board, can carry out the sunshade to intelligent surveillance camera head through second sunshading board and first sunshading board, can reduce the sunshine and shine the condition that leads to the first temperature of intelligent surveillance camera to rise, and then solve intelligent surveillance camera head because of the sunshine shines the problem of high temperature trouble.

Description

Computer intelligent monitoring device based on big data analysis

Technical Field

The invention relates to a computer intelligent monitoring device based on big data analysis, and belongs to the technical field of monitoring.

Background

With the rapid development of networks, the information age is coming, a large amount of data is emerging, security data is rapidly increasing at a geometric-level speed, more and more security users put higher requirements on big data, and the effect of prediction and early warning can be expected to be achieved through analysis of mass data; the influence of big data on monitoring can be divided into two aspects, namely monitoring storage and information analysis; for mass data generated in a monitoring system, the number of storage devices reaches dozens of and hundreds of storage devices, so that the scientific and efficient management mode is very important, the cloud storage can provide a multi-device centralized management tool based on a cluster management technology, the cloud storage has the functions of device centralized monitoring, cluster management, monitoring of system software and hardware running states, active alarming, imaging system detection and the like, and the information processing capacity can be improved by intelligently analyzing the monitoring data through big data;

in the prior art, a plurality of monitoring devices are installed outdoors, the temperature of the monitoring devices can rise continuously under the irradiation of outdoor sunlight, and high temperature easily causes the internal devices of the monitoring devices to break down, thereby influencing the use of the monitoring devices. Therefore, the intelligent monitoring device for the computer based on big data analysis is improved.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the temperature of the monitoring device in the prior art can rise continuously under the irradiation of outdoor sunlight, and the high temperature easily causes the problem that the internal devices of the monitoring device break down.

(II) technical scheme

In order to achieve the purpose, the invention provides a computer intelligent monitoring device based on big data analysis, which comprises an intelligent monitoring camera, wherein a sun-shading rain-collecting mechanism is arranged at the top of the intelligent monitoring camera, the sun-shading rain-collecting mechanism comprises a sun-shading rain-collecting part arranged at the top of the intelligent monitoring camera, the sun-shading rain-collecting part is used for shading the intelligent monitoring camera in sunny days and collecting rainwater in rainy days, a protection cleaning part is arranged at the top of the sun-shading rain-collecting part, a driving mechanism is arranged on the protection cleaning part, and a cleaning mechanism for cleaning the intelligent monitoring camera is arranged between the sun-shading rain-collecting mechanism and the intelligent monitoring camera;

the intelligent monitoring camera comprises a sun-shading rain-collecting part and a rain-collecting part, wherein the sun-shading rain-collecting part comprises a rain-collecting box fixedly arranged at the top of the intelligent monitoring camera, an overflow pipe is arranged at the back of the rain-collecting box, a first sun-shading plate is fixedly arranged at the top of the rain-collecting box, two sides of the first sun-shading plate are hinged with second sun-shading plates through hinges, a rain sensor is arranged on the second sun-shading plate, communication ports are formed between two sides of the first sun-shading plate and the top of the rain-collecting box, and filter screens are arranged in the communication ports;

the protective cleaning part comprises two supporting seats which are fixedly arranged on two sides of the top of the first sun shield respectively, arc-shaped grooves are formed in two sides of the inner parts of the two supporting seats, an arc-shaped plate is inserted and connected into each arc-shaped groove, and one side of each arc-shaped plate penetrates through each arc-shaped groove and is fixedly connected with the second sun shield;

the bottom of one surface, close to each other, of each of the two supporting seats is provided with a first sliding groove, a shielding plate located between the two supporting seats is placed at the top of the first sun shield, the bottom of each of the two shielding plates is provided with a cleaning brush, two ends of each of the two shielding plates are fixedly provided with sliding blocks, and the four sliding blocks are respectively in sliding connection with the inner walls of the two first sliding grooves;

four the equal fixedly connected with in top of slider connects the rope, four the tip of connecting the rope respectively with four arc fixed connection, it is located the arc wall to connect the rope.

The driving mechanism comprises a first motor arranged in the middle of the bottom end of the rain collecting box, an output shaft of the first motor penetrates through the rain collecting box and the first sun shield and extends to the position above the first sun shield, and an output shaft of the first motor is fixedly connected with a driving plate located above the first sun shield.

The two sides of the driving plate are hinged with sliding seats, the two sides of the driving plate are hinged with guide rails, the inner walls of the sliding seats are connected with the guide rails in a sliding mode, and the guide rails are fixedly connected with one surfaces, close to the two shielding plates, of the guide rails respectively.

And the connection parts of the output shaft of the first motor, the rain collecting box and the first sun shield are provided with sealing bearings.

Wherein, clearance mechanism is including installing the protective housing in album rain case, miniature pump is installed to the bottom of protective housing inner chamber, miniature pump's the pipe end of intaking extends to in the album rain case, miniature pump's play water pipe end is connected with first connecting pipe through sealed bearing, the tip of first connecting pipe passes protective housing and album rain case in proper order and extends to the positive outside of album rain case, the surface of first connecting pipe and the junction of protective housing and album rain case all are provided with sealed bearing.

The outer fixed cover of first connecting pipe is equipped with the backup pad that is located the rain-collecting box openly, install the second connecting pipe in the backup pad, the tip and the first connecting pipe intercommunication of second connecting pipe, be provided with a plurality of shower nozzles on the second connecting pipe, the backup pad is worn out to the one end that the second connecting pipe was kept away from to the shower nozzle.

The scraper is installed on one side, close to the intelligent monitoring camera, of the supporting plate, and the scraper is in contact with the intelligent monitoring camera.

The second motor is installed at the top of the inner cavity of the protection box, an output shaft of the second motor is connected with a gear set, the gear set is composed of two gears, and the two gears are meshed with each other and are respectively sleeved on the output shaft of the second motor and the first connecting pipe.

(III) advantageous effects

The invention provides a computer intelligent monitoring device based on big data analysis, which has the advantages that:

1. through the arranged sun-shading and rain-collecting mechanism, when the second sun-shading board and the first sun-shading board are horizontally arranged on a sunny day, the intelligent monitoring camera can be shaded through the second sun-shading board and the first sun-shading board, the situation that the temperature of the intelligent monitoring camera is increased due to sunlight irradiation can be reduced, and the problem of high-temperature failure of the intelligent monitoring camera due to the sunlight irradiation is solved;

2. through the arranged sun-shading and rain-collecting mechanism, in rainy days, the two shielding plates are driven to approach each other through the driving mechanism, the arc-shaped plates are driven to move through the sliding blocks and the connecting ropes when the two shielding plates approach each other, the two second sun-shading plates are driven to rotate around the first sun-shading plate through the arc-shaped plates, at the moment, a water receiving container is formed among the second sun-shading plates, the supporting seat and the arc-shaped plates, rainwater falls onto the first sun-shading plates and then flows into a rain collecting box through the communicating port, and the rainwater and the cleaning mechanism are matched with each other, so that the cleaning effect on the intelligent monitoring camera can be improved;

3. the shielding plate is used for covering the communication port when shading, so that the evaporation of rainwater in the rainwater collection box is reduced, the second sun shield is reset to be horizontal after receiving rainwater, the shielding plate is reset at the moment, and in the resetting process of the shielding plate, the cleaning brush is driven by the shielding plate to clean the filter screen, so that the condition of impurity accumulation and blockage on the filter screen is reduced;

4. through the arranged auxiliary mechanism, the two auxiliary parts in the auxiliary mechanism can plug the air inlet and the air outlet of the intelligent monitoring camera, so that the dissipation of heat generated in the intelligent monitoring camera during working can be reduced, the intelligent monitoring camera can be used in a low-temperature environment, and when the auxiliary parts plug the air inlet and the air outlet, the clamping plates can be clamped on the side surfaces of the intelligent monitoring camera, so that the stability of the auxiliary parts is improved;

5. through the complementary unit who sets up, outside pulling protection box makes the square and supports the square hole separation back of box side, use the connecting plate to rotate protection box as one hundred eighty degrees at center earlier, then use the back shaft to rotate protection box as ninety degrees at center, then insert the square in the square hole of support bottom of the case portion, when the sealing washer in two auxiliary portions was laminated, two splint extrude and remove each other, the effort pulling closure plate of spring telescopic link this moment removes and makes first through-hole and second through-hole coincidence, add the repellent through second through-hole and first through-hole in to the protection box, can drive the mosquito when using in summer, reduce the influence of mosquito to the first monitoring effect of intelligent surveillance camera.

Drawings

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

FIG. 1 is a schematic structural diagram of a computer intelligent monitoring device based on big data analysis provided by the present application;

FIG. 2 is a schematic structural diagram of a communication port and a filter screen of the intelligent computer monitoring device based on big data analysis provided by the present application;

FIG. 3 is a schematic cross-sectional structural diagram of a supporting base of the intelligent monitoring device based on big data analysis provided in the present application;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1 provided herein;

FIG. 5 is an enlarged schematic view of FIG. 1 at B, as provided herein;

fig. 6 is a schematic cross-sectional structural diagram of a rain collecting box of a computer intelligent monitoring device based on big data analysis provided in the present application;

FIG. 7 is an enlarged structural view at C in FIG. 6 provided in the present application;

fig. 8 is a schematic structural diagram of the auxiliary part of the intelligent computer monitoring device based on big data analysis provided by the present application for plugging the air inlet and the air outlet;

FIG. 9 is a schematic structural diagram of an auxiliary mechanism of the intelligent computer monitoring device for repelling mosquitoes based on big data analysis according to the present application;

FIG. 10 is a schematic structural diagram of a support box of the intelligent computer monitoring device based on big data analysis provided in the present application;

fig. 11 is an enlarged schematic structural diagram provided in the present application at D of fig. 10.

1. An intelligent monitoring camera;

2. a sunshade rain-collecting mechanism; 201. a rain collecting box; 202. a first visor; 203. a second sun visor; 204. a communication port; 205. filtering with a screen; 206. a supporting seat; 207. an arc-shaped slot; 208. an arc-shaped plate; 209. a first chute; 210. a slider; 211. a shielding plate; 212. cleaning a brush; 213. connecting ropes; 214. an overflow pipe; 215. a rain sensor;

3. a drive mechanism; 301. a first motor; 302. a drive plate; 303. a slide base; 304. a guide rail;

4. a cleaning mechanism; 401. a protective box; 402. a micro water pump; 403. a first connecting pipe; 404. a support plate; 405. a second connection pipe; 406. a spray head; 407. a squeegee; 408. a second motor; 409. a gear set;

5. an auxiliary mechanism; 501. a support box; 502. a square hole; 503. a communicating groove; 504. a square block; 505. a connecting plate; 506. a second chute; 507. a connecting ring; 508. a support shaft; 509. a traction spring; 510. a protective case; 511. a seal ring; 512. a side groove; 513. a chamber; 514. a support bar; 515. connecting blocks; 516. a splint; 517. a guide wheel; 518. a plugging plate; 519. a first through hole; 520. a spring telescopic rod; 521. a second through hole; 522. and connecting the wires.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Example 1:

as shown in fig. 1, the embodiment provides a computer intelligent monitoring device based on big data analysis, which includes an intelligent monitoring camera 1, a sunshade rain-collecting mechanism 2 is arranged on the top of the intelligent monitoring camera 1, the sunshade rain-collecting mechanism 2 includes a sunshade rain-collecting part on the top of the intelligent monitoring camera 1, the sunshade rain-collecting part is used for shading the intelligent monitoring camera 1 in sunny days, the sunshade rain-collecting part is used for collecting rainwater in rainy days, a protection cleaning part is arranged on the top of the sunshade rain-collecting part, a driving mechanism 3 is arranged on the protection cleaning part, a cleaning mechanism 4 for cleaning the intelligent monitoring camera 1 is arranged between the sunshade rain-collecting mechanism 2 and the intelligent monitoring camera 1, and the situation that dust adheres to the lens of the intelligent monitoring camera 1 to affect the monitoring effect can be reduced through the arranged cleaning mechanism 4;

the sun-shading rain-collecting part comprises a rain-collecting box 201 fixedly arranged at the top of the intelligent monitoring camera 1, the back of the rain-collecting box 201 is provided with an overflow pipe 214, the overflow pipe 214 is arranged to discharge redundant rain water after the rain-collecting box 201 is filled with rain water, the top of the rain-collecting box 201 is fixedly provided with a first sun-shading plate 202, the two sides of the first sun-shading plate 202 are hinged with a second sun-shading plate 203 through hinges, the second sun-shading plate 203 is provided with a rain water sensor 215, the rain water sensor 215 can detect whether rain water falls or not, communication ports 204 are respectively arranged between the two sides of the first sun-shading plate 202 and the top of the rain-collecting box 201, and the communication ports 204 are arranged to enable the first sun-shading plate 202 to be communicated with the rain-collecting box 201, so that rainwater enters the rainwater collection box 201, the filter screen 205 is arranged in the communication port 204, and the filter screen 205 can filter rainwater passing through the communication port 204, thereby reducing the situation that sundries enter the rainwater collection box 201.

As shown in fig. 1, fig. 3 and fig. 4, as a preferred embodiment, on the basis of the above manner, further, the protective cleaning portion includes two supporting seats 206 respectively fixedly mounted on two sides of the top of the first sun visor 202, arc-shaped grooves 207 are respectively formed on two sides inside the two supporting seats 206, an arc-shaped plate 208 is inserted and connected in each arc-shaped groove 207, the arc-shaped plate 208 can slide in the arc-shaped groove 207, when receiving rainwater, the rainwater on the top of the first sun visor 202 can be blocked through the arc-shaped plate 208 and the supporting seats 206 when raining, so that the rainwater can enter the rain collecting box 201 through the communicating port 204, and one side of the arc-shaped plate 208 penetrates through the arc-shaped groove 207 and is fixedly connected with the second sun visor 203.

As shown in fig. 1, fig. 3 and fig. 4, as a preferred embodiment, on the basis of the above manner, further, the first sliding grooves 209 have been all seted up to the bottom that two supporting seats 206 are close to one side each other, baffle 211 that is located between two supporting seats 206 has been placed at the top of first sunshading board 202, the bottom of two baffle 211 all is provided with cleaning brush 212, can clear up the debris that filters on the filter screen 205 through cleaning brush 212, the both ends of two baffle 211 all fixed mounting have slider 210, slider 210 and the mutually supporting of first sliding groove 209 can carry on spacingly to baffle 211, it is more stable when making baffle 211 remove, four slider 210 respectively with the inner wall sliding connection of two first sliding grooves 209.

As shown in fig. 3, as a preferred embodiment, on the basis of the above manner, further, the top portions of the four sliders 210 are fixedly connected with the connecting ropes 213, the connecting ropes 213 can connect the sliders 210 and the arc plates 208 together, so that when the two shielding plates 211 approach each other in rainy days, the second sun visor 203 can be pulled through the connecting ropes 213 and the arc plates 208, the end portions of the four connecting ropes 213 of the sliders 210 are fixedly connected with the four arc plates 208, respectively, and the connecting ropes 213 are located in the arc grooves 207.

Example 2:

the scheme of example 1 is further described below in conjunction with specific working modes, which are described in detail below:

as shown in fig. 1, 5 and 6, as a preferred embodiment, on the basis of the above manner, further, the driving mechanism 3 includes a first motor 301 disposed in the middle of the bottom end of the rain collecting box 201, an output shaft of the first motor 301 passes through the rain collecting box 201 and the first sunshade 202 and extends to the top of the first sunshade 202, an output shaft of the first motor 301 is fixedly connected with a driving plate 302 located above the first sunshade 202, two sides of the driving plate 302 are hinged with sliders 303, inner walls of the two sliders 303 are slidably connected with guide rails 304, the first motor 301 is powered on to drive the driving plate 302 to rotate, the driving plate 302 drives the two shutters 211 to approach each other through the sliders 303 and the guide rails 304, and the two guide rails 304 are fixedly connected with a surface of the two shutters 211 that approach each other.

As shown in fig. 6, in addition to the above-described embodiment, in a preferred embodiment, the sealing bearings are provided at the joints between the output shaft of the first motor 301 and the rain collecting box 201 and the first sunshade 202, and the sealing bearings can improve the sealing performance at the joints between the output shaft of the first motor 301 and the rain collecting box 201 and the first sunshade 202.

As shown in figure 1 of the drawings, in which, as shown in fig. 6 and 7, as a preferred embodiment, in addition to the above-mentioned manner, further, the cleaning mechanism 4 includes a protection box 401 installed in the rain collecting box 201, a micro water pump 402 is installed at the bottom of an inner cavity of the protection box 401, a water inlet pipe end of the micro water pump 402 extends into the rain collecting box 201, a water outlet pipe end of the micro water pump 402 is connected with a first connecting pipe 403 through a sealing bearing, the sealing bearing is arranged so that the first connecting pipe 403 can rotate while being connected with a water outlet pipe of the micro water pump 402, an end of the first connecting pipe 403 sequentially passes through the protection box 401 and the rain collecting box 201 and extends to the outside of the front surface of the rain collecting box 201, sealing bearings are arranged at the connection positions of the outer surface of the first connecting pipe 403 and the protection box 401 and the rain collecting box 201, and can improve the sealing performance of the connection positions of the outer surface of the first connecting pipe 403 and the protection box 401 and the rain collecting box 201.

As shown in fig. 7, as a preferred embodiment, in addition to the above-mentioned embodiment, a supporting plate 404 located on the front surface of the rain collecting box 201 is fixedly sleeved on the outer surface of the first connecting pipe 403, a second connecting pipe 405 is installed in the supporting plate 404, the end of the second connecting pipe 405 is communicated with the first connecting pipe 403, a plurality of nozzles 406 are installed on the second connecting pipe 405, one end of the nozzle 406 far away from the second connecting pipe 405 penetrates through the supporting plate 404, a scraper 407 is installed on one surface of the supporting plate 404 close to the intelligent monitoring camera 1, the scraper 407 is made of rubber, and dust and water on the lens of the intelligent monitoring camera 1 can be scraped by the scraper 407.

As shown in fig. 7, as a preferred embodiment, in addition to the above-mentioned mode, a second motor 408 is installed on the top of the inner cavity of the protective box 401, an output shaft of the second motor 408 is connected with a gear set 409, the gear set 409 is composed of two gears, the two gears are engaged with each other and respectively sleeved on the output shaft of the second motor 408 and the first connecting pipe 403, the rain sensor 215 is externally connected with a controller, the controller is electrically connected with the second motor 408, the micro water pump 402 and the first motor 301, and the second motor 408, the micro water pump 402 and the first motor 301 can be controlled by the controller.

Example 3:

the schemes in examples 1 and 2 are further described below in conjunction with specific working modes, which are described in detail below:

as shown in fig. 1, 8, 9 and 10, as a preferred embodiment, on the basis of the above manner, further, an air inlet and an air outlet are formed at the bottom of the intelligent monitoring camera 1, the auxiliary mechanism 5 includes a supporting box 501 fixedly mounted at the bottom of the intelligent monitoring camera 1, auxiliary portions are respectively disposed at two sides of the supporting box 501, and the positions of the two auxiliary portions respectively correspond to the positions of the air inlet and the air outlet, so that the design has the advantage that the two auxiliary portions can block the air inlet and the air outlet of the intelligent monitoring camera 1, thereby reducing dissipation of heat generated during operation in the intelligent monitoring camera 1, and enabling the intelligent monitoring camera 1 to be used in a low-temperature environment;

the auxiliary part comprises square holes 502 arranged on the side surface and the bottom of the support box 501, a communication groove 503 communicated with the two square holes 502 is arranged at the corner of the support box 501, a square block 504 is inserted in the square hole 502 arranged on the side surface of the support box 501, one surface of the square block 504 is rotatably connected with a connecting plate 505 arranged in the support box 501 through a bearing, the connecting plate 505 can pass through the communication groove 503, so that the square block 504 can move from one square hole 502 to the other square hole 502, a second sliding groove 506 is arranged on the connecting plate 505, the inner wall of the second sliding groove 506 is connected with a connecting ring 507 in an inserting manner, the connecting ring 507 can slide in the second sliding groove 506, the inner wall of the connecting ring 507 is rotatably connected with a support shaft 508 through a bearing, the end part of the support shaft 508 is fixedly connected with the inner wall of the support box 501, a traction spring is fixedly arranged on one side of the connecting ring 507, the acting force of the traction spring 509 can improve the stability of the square block 504 inserted in the square hole 502, one end of the pulling spring 509 is fixedly connected to the inner wall of the second sliding groove 506.

As shown in fig. 10 and 11, as a preferred embodiment, in addition to the above-mentioned manner, a protection box 510 is fixedly installed on the other side of the block 504, a sealing ring 511 is installed on the top surface of the protection box 510, the sealing ring 511 can improve the sealing performance of the auxiliary part when the auxiliary part blocks the air inlet and the air outlet of the intelligent monitoring camera 1, a side groove 512 is opened on one side of the protection box 510 away from the block 504, a chamber 513 communicated with the side groove 512 is opened in the middle of the inner wall of the protection box 510 away from the sealing ring 511, and a guide wheel 517 is arranged at the communication position of the chamber 513 and the side groove 512.

As shown in fig. 10 and 11, as a preferred embodiment, on the basis of the above-mentioned manner, further, a support rod 514 is fixedly installed in the side groove 512, an outer surface of the support rod 514 is slidably connected with a connection block 515, one surface of the connection block 515, which is away from the square 504, is fixedly connected with a clamp plate 516, which is located outside the protection box 510, and a side surface of the clamp plate 516 is in contact with a side surface of the intelligent monitoring camera 1, so that the clamp plate 516 can be clamped on the side surface of the intelligent monitoring camera 1, thereby improving the stability of the auxiliary part, a return spring, which is located below the connection block 515, is sleeved on the outer surface of the support rod 514, the elastic force of the return spring is greater than that of the spring telescopic rod 520, and a plurality of second through holes 521 are respectively formed at the top of the inner cavity of the side groove 512 and at the bottom of the inner cavity.

As shown in fig. 10 and 11, in addition to the above-mentioned embodiments, a blocking plate 518 is slidably connected in the side groove 512, the blocking plate 518 is provided with a plurality of first through holes 519, when the air inlet and the air outlet are plugged, the positions of the first through hole 519 and the second through hole 521 are staggered, the plugging plate 518 can plug the second through hole 521, and when driving the mosquito, second through-hole 521 aligns and communicates with first through-hole 519 for back smell can be followed second through-hole 521 and first through-hole 519 outdiffusion in the insect repellant protection box 510, spring telescopic link 520 is installed to one side of closure plate 518, one side that closure plate 518 was kept away from to spring telescopic link 520 and the inner wall fixed connection of side groove 512, connecting wire 522 is installed to the opposite side of closure plate 518, the one end that the closure plate 518 was kept away from to connecting wire 522 is through the bottom fixed connection of guide pulley 517 back with connecting block 515.

Specifically, this computer intelligent monitoring device based on big data analysis when during the during operation/use: when the second sun visor 203 and the first sun visor 202 are horizontally arranged on a sunny day, the intelligent monitoring camera 1 can be shaded through the second sun visor 203 and the first sun visor 202, the temperature rise of the intelligent monitoring camera 1 caused by sunlight irradiation can be reduced, when the rain falls onto the rain sensor 215 in a rainy day, the rain sensor 215 detects a rain signal, the first motor 301 is electrified to drive the drive plate 302 to rotate, the drive plate 302 drives the two shielding plates 211 to mutually approach through the sliding base 303 and the guide rail 304, the communication port 204 is exposed at the moment, when the two shielding plates 211 approach to each other, the sliding block 210 and the connecting rope 213 drive the arc-shaped plate 208 to move, the two second sun visors 203 are driven to rotate around the first sun visor 202 through the arc-shaped plate 208, at the moment, a water receiving container is formed between the second sun visor 203, the second sun visor 206 and the arc-shaped plate 208, the rain falls onto the first sun visor 202 and then flows into the rain collecting box 201 through the communication port 204, the rainwater is filtered through the filter screen 205, when the sun is sunny again, the first motor 301 drives the driving plate 302 to rotate reversely, so that the two shielding plates 211 are far away from each other, in the process that the two shielding plates 211 are far away from each other, the shielding plates 211 drive the cleaning brush 212 to push sundries on the filter screen 205 to the second sun shield 203, and the second sun shield 203 is reset to be horizontal under the action of self gravity;

when the lens of the intelligent monitoring camera 1 needs to be cleaned, the micro water pump 402 is started, rainwater in the rainwater collection box 201 is conveyed to the second connecting pipe 405 through the first connecting pipe 403 by the micro water pump 402, then the rainwater is sprayed out to the lens of the intelligent monitoring camera 1 through the spray head 406, then the first connecting pipe 403 is driven to rotate by the second motor 408 through the gear set 409, the scraper 407 is driven to rotate through the first connecting pipe 403 and the supporting plate 404, and the lens of the intelligent monitoring camera 1 is cleaned through the scraper 407;

when the auxiliary mechanism 5 is in the state shown in fig. 8, two auxiliary parts in the auxiliary mechanism 5 can seal the air inlet and the air outlet of the intelligent monitoring camera 1, so that the dissipation of heat generated during working in the intelligent monitoring camera 1 can be reduced, the intelligent monitoring camera 1 can be used in a low-temperature environment, and when the auxiliary parts seal the air inlet and the air outlet, the clamping plates 516 can be clamped on the side surfaces of the intelligent monitoring camera 1, so that the stability of the auxiliary parts is improved;

after the protection box 510 is pulled outwards to separate the square hole 502 on the side of the square block 504 and the support box 501, the protection box 510 is rotated one hundred eighty degrees by taking the connecting plate 505 as the center, then the protection box 510 is rotated ninety degrees by taking the support shaft 508 as the center, then the square block 504 is inserted into the square hole 502 at the bottom of the support box 501, when the sealing rings 511 in the two auxiliary parts are attached, the two clamping plates 516 are extruded and moved with each other, at the moment, the first through hole 519 and the second through hole 521 are overlapped by pulling the blocking plate 518 through the spring telescopic rod 520, at the moment, the auxiliary mechanism 5 is in a state shown in figure 9, insect repellent is added into the protection box 510 through the second through hole 521 and the first through hole 519, mosquitoes can be repelled when the intelligent monitoring camera 1 is used in summer, and the influence of the mosquitoes on the monitoring effect is reduced.

The above embodiments are only for illustrating the present invention and are not to be construed as limiting the present invention. Although the present invention has been described in detail with reference to the embodiments, it should be understood by those skilled in the art that various combinations, modifications or equivalents may be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention, and the technical solution of the present invention is covered by the claims of the present invention.

Claims (10)

1. An intelligent computer monitoring device based on big data analysis comprises an intelligent monitoring camera (1), it is characterized in that a sunshade rain-collecting mechanism (2) is arranged at the top of the intelligent monitoring camera (1), the sunshade rain-collecting mechanism (2) comprises a sunshade rain-collecting part at the top of the intelligent monitoring camera (1), the sunshade rain-collecting part is used for shading the intelligent monitoring camera (1) in sunny days, and the sunshade rain-collecting part is used for collecting rain water in rainy days, the top of the sunshade rain-collecting part is provided with a protective cleaning part, a driving mechanism (3) is arranged on the protective cleaning part, a cleaning mechanism (4) for cleaning the intelligent monitoring camera (1) is arranged between the sunshade rain collecting mechanism (2) and the intelligent monitoring camera (1), an auxiliary mechanism (5) is arranged at the bottom of the intelligent monitoring camera (1);

the sunshade rain-collecting part comprises a rain-collecting box (201) fixedly mounted at the top of an intelligent monitoring camera (1), an overflow pipe (214) is arranged at the back of the rain-collecting box (201), a first sunshade plate (202) is fixedly mounted at the top of the rain-collecting box (201), the two sides of the first sunshade plate (202) are hinged to a second sunshade plate (203) through hinges, a rain sensor (215) is arranged on the second sunshade plate (203), a communication port (204) is formed between the two sides of the first sunshade plate (202) and the top of the rain-collecting box (201), and a filter screen (205) is arranged in the communication port (204).

2. The computer intelligent monitoring device based on big data analysis according to claim 1, characterized in that the protection cleaning portion comprises two supporting seats (206) fixedly installed at two sides of the top of the first sun visor (202), an arc-shaped groove (207) is formed at each of two sides inside the two supporting seats (206), an arc-shaped plate (208) is inserted into each arc-shaped groove (207), and one side of the arc-shaped plate (208) penetrates through the arc-shaped groove (207) and is fixedly connected with the second sun visor (203).

3. The computer intelligent monitoring device based on big data analysis according to claim 2, characterized in that the bottom of one surface of two supporting seats (206) close to each other is provided with a first sliding groove (209), a shielding plate (211) between the two supporting seats (206) is placed on the top of the first sun shield (202), the bottom of each shielding plate (211) is provided with a cleaning brush (212), two ends of each shielding plate (211) are fixedly provided with sliding blocks (210), and the four sliding blocks (210) are respectively connected with the inner walls of the two first sliding grooves (209) in a sliding manner;

the top of four slider (210) is all fixedly connected with connects rope (213), four the tip of connecting rope (213) respectively with four arc (208) fixed connection, it is located arc groove (207) to connect rope (213).

4. A computerized intelligent monitoring device based on big data analysis according to claim 3, characterized in that the driving mechanism (3) comprises a first motor (301) disposed at the middle of the bottom end of the rain-collecting box (201), the output shaft of the first motor (301) passes through the rain-collecting box (201) and the first sunshade plate (202) and extends above the first sunshade plate (202), the output shaft of the first motor (301) is fixedly connected with the driving plate (302) above the first sunshade plate (202);

the both sides of drive plate (302) all articulate there are slide (303), two the equal sliding connection of inner wall of slide (303) has guide rail (304), two guide rail (304) one side fixed connection who is close to each other with two shielding plates (211) respectively.

5. The computer intelligent monitoring device based on big data analysis according to claim 4, characterized in that, the cleaning mechanism (4) includes a protection box (401) installed in the rain-collecting box (201), a micro water pump (402) is installed at the bottom of the inner cavity of the protection box (401), the water inlet pipe end of the micro water pump (402) extends into the rain-collecting box (201), the water outlet pipe end of the micro water pump (402) is connected with a first connecting pipe (403) through a sealed bearing, and the end of the first connecting pipe (403) passes through the protection box (401) and the rain-collecting box (201) in sequence and extends to the outside of the front face of the rain-collecting box (201).

6. The computer intelligent monitoring device based on big data analysis according to claim 5, characterized in that a supporting plate (404) located on the front surface of the rain collecting box (201) is fixedly sleeved on the outer surface of the first connecting pipe (403), a second connecting pipe (405) is installed in the supporting plate (404), the end of the second connecting pipe (405) is communicated with the first connecting pipe (403), a plurality of spray heads (406) are arranged on the second connecting pipe (405), one end of each spray head (406) far away from the second connecting pipe (405) penetrates through the supporting plate (404), a scraper (407) is installed on one surface of the supporting plate (404) close to the intelligent monitoring camera (1), and the scraper (407) is in contact with the intelligent monitoring camera (1);

second motor (408) is installed at the top of guard box (401) inner chamber, the output shaft of second motor (408) is connected with gear train (409), gear train (409) comprises two gears, two intermeshing just overlaps respectively and establishes on output shaft and first connecting pipe (403) of second motor (408) between the gear.

7. The intelligent computer monitoring device based on big data analysis according to claim 6, wherein the bottom of the intelligent monitoring camera (1) is provided with an air inlet and an air outlet, the auxiliary mechanism (5) comprises a supporting box (501) fixedly mounted at the bottom of the intelligent monitoring camera (1), auxiliary parts are arranged on both sides of the supporting box (501), and the positions of the two auxiliary parts correspond to the positions of the air inlet and the air outlet respectively;

the auxiliary part comprises a square hole (502) arranged on the side surface and the bottom of the supporting box (501), a communication groove (503) communicated with the two square holes (502) is arranged at the corner of the supporting box (501), a square block (504) is inserted in the square hole (502) positioned on the side surface of the supporting box (501), one side of the square block (504) is rotatably connected with a connecting plate (505) positioned in the supporting box (501) through a bearing, a second sliding chute (506) is arranged on the connecting plate (505), the inner wall of the second sliding chute (506) is connected with a connecting ring (507) in an inserting way, the inner wall of the connecting ring (507) is rotatably connected with a supporting shaft (508) through a bearing, the end part of the supporting shaft (508) is fixedly connected with the inner wall of the supporting box (501), and a traction spring (509) is fixedly installed on one side of the connecting ring (507), and one end of the traction spring (509) is fixedly connected with the inner wall of the second sliding groove (506).

8. The computer intelligent monitoring device based on big data analysis according to claim 7, characterized in that a protection box (510) is fixedly installed on the other side of the block (504), a sealing ring (511) is installed on the top surface of the protection box (510), a side groove (512) is formed in one side of the protection box (510) far away from the block (504), a chamber (513) communicated with the side groove (512) is formed in the middle of the inner wall of one side of the protection box (510) far away from the sealing ring (511), and a guide wheel (517) is arranged at the communication position of the chamber (513) and the side groove (512).

9. The computer intelligent monitoring device based on big data analysis according to claim 8, characterized in that a supporting rod (514) is fixedly installed in the side groove (512), the outer surface of the supporting rod (514) is slidably connected with a connecting block (515), one surface of the connecting block (515) far away from the square block (504) is fixedly connected with a clamping plate (516) located outside the protection box (510), the side surface of the clamping plate (516) is in contact with the side surface of the intelligent monitoring camera (1), a return spring located below the connecting block (515) is sleeved on the outer surface of the supporting rod (514), and a plurality of second through holes (521) are formed in the top of the inner cavity of the side groove (512) and the bottom of the inner cavity.

10. The computer intelligent monitoring device based on big data analysis of claim 9, characterized in that sliding connection has a closure plate (518) in side groove (512), a plurality of first through-hole (519) has been seted up on closure plate (518), spring telescopic link (520) is installed to one side of closure plate (518), one side that closure plate (518) were kept away from to spring telescopic link (520) and the inner wall fixed connection of side groove (512), connecting wire (522) is installed to the opposite side of closure plate (518), the one end that closure plate (518) were kept away from to connecting wire (522) is through guide pulley (517) back and the bottom fixed connection of connecting block (515).

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