CN115338162B - Intelligent traffic device based on internet of things cloud platform and system thereof - Google Patents

Abstract

The application provides an intelligent transportation device based on an internet of things cloud platform, which can spray liquid through a liquid outlet component to clean the surface of a protective cover so as to clean mucus and mosquitoes attached to the protective cover, then a heating component heats the surface of the protective cover so as to dry the surface of the protective cover, then static electricity is generated by an electrostatic component to adsorb dust into a groove, the dust is sucked into a dust accumulation piece through a first channel or a second channel, and finally an air outlet component blows negative ion wind to the protective cover so as to enable the dust on the protective cover to fall off, so that the protective cover is cleaner.

Description

Intelligent traffic device based on internet of things cloud platform and system thereof

[ field of technology ]

The application relates to the field of intelligent traffic monitoring, in particular to an intelligent traffic device based on an internet of things cloud platform and a system thereof.

[ background Art ]

The monitoring camera is usually used as a shooting component for shooting violations in traffic.

The Chinese patent discloses an application patent with the patent number of CN113259555B, drives the pinion through the rack to rotate, thereby can make lower infusion chamber and last infusion chamber be linked together, and can make the windshield wiper rotate to the safety cover bottom, thereby can make liquid pass through upper infusion chamber and lower infusion chamber and follow clean hole discharge, and can make pressure sensor switch on power motor because the pressure effect of liquid this moment, thereby make the safety cover anticlockwise rotation, thereby can cooperate with clean hole exhaust liquid and wiper sponge, then can clean the safety cover outer wall. However, if some mosquitoes adhere to the protective cover in the cleaning process, dust just exists at the moment, which can cause difficulty in cleaning the parts and influence shooting of the monitoring camera.

[ application ]

In view of the foregoing, it is necessary to provide an intelligent traffic device based on an internet of things cloud platform to solve the above-mentioned problems.

The embodiment of the application provides an intelligent traffic device based on an internet of things cloud platform, which comprises: installing support, locate safety cover on the installing support with locate camera in the safety cover, wisdom traffic device based on thing networking cloud platform still includes:

the first shell is arranged outside the protective cover, a cleaning cavity is formed in the first shell in a recessed mode in the direction away from the camera, and the protective cover is partially accommodated in the cleaning cavity;

the liquid outlet component is arranged in the cleaning cavity and is aligned with the protective cover;

the air outlet component is arranged in the cleaning cavity and is internally provided with a negative ion generator;

the heating component is arranged in the cleaning cavity;

a first direction disposed along a straight line direction from the protective cover to the ground;

the electrostatic assembly is arranged in the cleaning cavity, a groove, a first channel communicated with the groove and a second channel communicated with the first channel are formed in the electrostatic assembly, an electrostatic plate is arranged on the inner wall of the groove, the electrostatic assembly further comprises a choke block, and the first channel and the second channel are arranged around the choke block;

the dust accumulation piece is arranged at the bottom of the electrostatic assembly and is communicated with the first channel, the first channel is observed along the first direction, and the flowing direction of air in the first channel always flows to the dust accumulation piece along the first direction.

In at least one embodiment of the present application, the choke block is provided with a large end and a small end, the large end is close to the dust accumulation member, the small end gradually extends towards the large end, and the length direction of the choke block is arranged along the airflow direction of the first channel.

In at least one embodiment of the application, a dust accumulation cavity communicated with the first channel is formed inside the dust accumulation piece;

the dust accumulation member further includes:

the first air suction piece is arranged in the dust accumulation cavity, and the air suction end of the first air suction piece is communicated with the first channel.

In at least one embodiment of the present application, the intelligent traffic device based on the internet of things cloud platform further includes:

the static eliminating piece is rotationally connected with the static assembly and is electrically connected with the mounting bracket;

the rotating end of the first motor is rotationally connected with one end of the static eliminating piece, and the first motor rotates to drive the static eliminating piece to be in or out of contact with the surface of the static assembly.

In at least one embodiment of the present application, the intelligent traffic device based on the internet of things cloud platform further includes:

the cleaning component is arranged in the first shell, a cleaning piece made of flexible materials is arranged on the cleaning component, the cleaning piece is located on one side close to the protective cover, and the cleaning piece can move along the direction close to or away from the protective cover so that the cleaning piece is attached to or away from the surface of the protective cover.

In at least one embodiment of the present application, the cleaning assembly further comprises:

the output end of the first electric cylinder is fixedly connected with one side, far away from the protective cover, of the cleaning piece;

the first shell is provided with a guide groove, the cleaning piece is positioned in the guide groove, and the first electric cylinder can drive the cleaning piece to move along the surface close to or far away from the protective cover.

In at least one embodiment of the present application, the tapping assembly comprises:

the liquid outlet piece is provided with a plurality of liquid outlet holes at one side close to the protective cover;

and the liquid storage piece is communicated with the liquid outlet piece.

In at least one embodiment of the present application, the air outlet assembly further includes:

the negative ion generator is arranged in the second shell, and a first air outlet channel is formed in one side, close to the protective cover, of the second shell;

the heating assembly includes:

an air inlet channel and a second air outlet channel are formed in one side, close to the protective cover, of the third shell;

and the heating piece is arranged on the third shell and communicated with the air inlet channel.

In at least one embodiment of the application, one end of the protective cover, which is close to the mounting bracket, is provided with an engagement part, one side of the protective cover, which is close to the mounting bracket, is sleeved on the mounting bracket,

the intelligent transportation device further comprises:

a gear member engaged with the engagement portion;

the second motor is arranged on the mounting bracket, the output end of the second motor is fixedly connected with the axle center of the gear piece, so that the second motor rotates to drive the gear piece to rotate, and the protection cover rotates around the camera serving as an axle.

The embodiment of the application provides an intelligent traffic system based on an internet of things cloud platform, which comprises the following components:

acquiring a cleaning instruction; generating a rotation command, and executing the rotation command to enable the protective cover to rotate relative to the mounting bracket;

generating a liquid spraying command, a heating command, a deep cleaning command and an air outlet command according to the cleaning command;

and executing the liquid spraying command, the heating command, the deep cleaning command and the air outlet command to clean the surface of the protective cover.

1. Above-mentioned wisdom traffic device based on thing networking cloud platform, when using, can spout liquid through the play liquid subassembly, clean the surface of safety cover to clean mucus and the mosquito of adhering to the last mosquito of safety cover, then heating element heats the surface of safety cover, so that the surface drying of safety cover, then the static subassembly produces static and adsorbs the dust into the recess in, and inhale the laying dust spare through first passageway or second passageway in, the last air-out subassembly blows the anion wind to the safety cover, so that the dust on the safety cover drops, make the safety cover cleaner.

2. The intelligent transportation device based on the cloud platform of the Internet of things, the air outlet component blows negative ion air into the cleaning cavity through the first air outlet channel, negative ions in the negative ion air are negatively charged and can be combined with bacteria, dust and other particles with positive charges in the air, and the particles are coagulated and fall down, so that dust suspended in the cleaning cavity is prevented from being attached to the surface of the protective cover again, the heating component blows air into the cleaning cavity through the heating piece and the air inlet channel, the heating component dries the protective cover in the cleaning cavity, the protective cover after spraying liquid of the liquid outlet component is dried, the second air outlet channel and the air inlet channel are arranged in parallel, the appearance of the protective cover is hemispherical, the air outlet direction of the air inlet channel is not perpendicular to the spherical center of the protective cover, and when the air of the air inlet channel blows to the protective cover, the air can deflect in a certain direction, so that the residence time of the hot air in the cleaning cavity is prolonged, the hot air cannot be blown out of the cleaning cavity through the second air outlet channel, and the energy consumption is saved.

3. The intelligent traffic system based on the Internet of things cloud platform acquires the cleaning instruction; generating a rotation command, and executing the rotation command to enable the protective cover to rotate relative to the mounting bracket; generating a liquid spraying command, a heating command, a deep cleaning command and an air outlet command according to the cleaning command; and executing a liquid spraying command, a heating command, a deep cleaning command and an air outlet command to clean the surface of the protective cover, so that the protective cover is cleaned, and dust on the surface of the protective cover is prevented from affecting the shooting effect of the camera.

[ description of the drawings ]

FIG. 1 is a perspective view of an intelligent traffic device based on an Internet of things cloud platform;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a cross-sectional view of FIG. 1;

FIG. 4 is a perspective view of the protective cover of FIG. 2;

fig. 5 is a perspective view of the first housing of fig. 2;

FIG. 6 is a perspective view of the liquid outlet member of FIG. 2;

FIG. 7 is a perspective view of the air outlet assembly of FIG. 2;

FIG. 8 is a perspective view of the heating assembly of FIG. 2;

FIG. 9 is a schematic illustration of the gear member of FIG. 2 mounted to a second motor;

FIG. 10 is a schematic view of a portion of the structure of FIG. 2;

FIG. 11 is another angular schematic view of FIG. 10;

FIG. 12 is a perspective view of the eccentric of FIG. 2;

fig. 13 is a flowchart of the intelligent transportation system based on the internet of things cloud platform.

[ Main element symbols description ]

The installation rack 100, the protection cover 120, the engagement part 121, the camera 130, the first housing 140, the cleaning chamber 140a, the guide groove 140b, the liquid outlet assembly 150, the liquid outlet member 151, the liquid outlet hole 151a, the liquid storage member 152, the air outlet assembly 160, the negative ion generator 161, the second housing 162, the first air outlet passage 162a, the heating assembly 170, the third housing 171, the air inlet passage 171a, the second air outlet passage 171b, the heating member 172, the first direction a, the electrostatic assembly 180, the groove 180a, the first passage 180b, the second passage 180c, the electrostatic plate 181, the choke piece 182, the large end 182a, the small end 182b, the dust accumulation piece 183, the dust accumulation chamber 183a, the first air suction member 184, the arc surface 185, the opening 185a, the static electricity removing member 190, the first motor 200, the cleaning assembly 210, the cleaning member 211, the first electric cylinder 212, the gear member 220, the second motor 230, the third motor 240, the eccentric member 250, the rotating part 251, the first tooth 252, the eccentric member 253, the annular member 260, and the auxiliary member 270.

[ detailed description ] of the application

Embodiments of the present application will now be described with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the application.

It is noted that when one component is considered to be "connected" to another component, it may be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed" on another element, it can be directly on the other element or intervening elements may also be present. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like are used herein for illustrative purposes only.

The embodiment of the application provides an intelligent traffic device based on an internet of things cloud platform, which comprises: installing support 100, locate the safety cover 120 on the installing support 100 and locate the camera 130 in the safety cover 120, wisdom traffic device based on thing networking cloud platform still includes: the first shell 140 is arranged outside the protective cover 120, the first shell 140 is concavely provided with a cleaning cavity 140a in a direction away from the camera 130, and the protective cover 120 is partially accommodated in the cleaning cavity 140 a; the liquid outlet assembly 150 is arranged in the cleaning cavity 140a, and the liquid outlet assembly 150 is aligned with the protective cover 120; the air outlet assembly 160 is arranged in the cleaning cavity 140a, and a negative ion generator 161 is arranged in the air outlet assembly 160; a heating element 170 disposed in the cleaning chamber 140 a; a first direction a disposed along a straight line direction from the protective cover 120 to the ground; the electrostatic assembly 180 is arranged in the cleaning cavity 140a, a first channel 180b which is provided with a groove 180a and is communicated with the groove 180a, and a second channel 180c which is communicated with the first channel 180b are arranged on the electrostatic assembly 180, an electrostatic plate 181 is arranged on the inner wall of the groove 180a, the electrostatic assembly 180 further comprises a choke block 182, and the first channel 180b and the second channel 180c are arranged around the choke block 182; the dust accumulation member 183 is disposed at the bottom of the electrostatic assembly 180, the dust accumulation member 183 is communicated with the first channel 180b, and the air flowing direction in the first channel 180b always flows to the dust accumulation member 183 along the first direction a when viewed along the first direction a.

The intelligent traffic device based on the cloud platform of internet of things provided above can spray liquid through the liquid outlet component 150 when in use, clean the surface of the protective cover 120 to clean mucus and mosquitoes attached to the mosquitoes on the protective cover 120, then the heating component 170 heats the surface of the protective cover 120 to dry the surface of the protective cover 120, then the electrostatic component 180 generates static electricity to adsorb dust into the groove 180a, and the dust depositing piece 183 is sucked into the first channel 180b or the second channel 180c, and finally the air outlet component 160 blows negative ion wind to the protective cover 120 to enable the dust on the protective cover 120 to fall off, so that the protective cover 120 is cleaner.

Some embodiments of the application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1 to 12, an embodiment of the present application provides an intelligent traffic device based on an internet of things cloud platform, including: installing support 100, locate the safety cover 120 on the installing support 100 and locate the camera 130 in the safety cover 120, wisdom traffic device based on thing networking cloud platform still includes: the first shell 140 is arranged outside the protective cover 120, the first shell 140 is concavely provided with a cleaning cavity 140a in a direction away from the camera 130, and the protective cover 120 is partially accommodated in the cleaning cavity 140 a; the liquid outlet assembly 150 is arranged in the cleaning cavity 140a, and the liquid outlet assembly 150 is aligned with the protective cover 120; the air outlet assembly 160 is arranged in the cleaning cavity 140a, and a negative ion generator 161 is arranged in the air outlet assembly 160; a heating element 170 disposed in the cleaning chamber 140 a; a first direction a disposed along a straight line direction from the protective cover 120 to the ground; the electrostatic assembly 180 is arranged in the cleaning cavity 140a, a first channel 180b which is provided with a groove 180a and is communicated with the groove 180a, and a second channel 180c which is communicated with the first channel 180b are arranged on the electrostatic assembly 180, an electrostatic plate 181 is arranged on the inner wall of the groove 180a, the electrostatic assembly 180 further comprises a choke block 182, and the first channel 180b and the second channel 180c are arranged around the choke block 182; the dust accumulation member 183 is disposed at the bottom of the electrostatic assembly 180, the dust accumulation member 183 is communicated with the first channel 180b, and the air flowing direction in the first channel 180b always flows to the dust accumulation member 183 along the first direction a when viewed along the first direction a.

Specifically, the protective cover 120 is hemispherical transparent glass; the liquid outlet assembly 150 is used to spray cleaning liquid, such as: water or glass water, etc.; the first direction a is set along a straight line direction from the protective cover 120 to the ground, i.e., a vertical direction; the groove 180a is a groove 180a with a rectangular or cylindrical or spherical cross section; the dust accumulation member 183 has a rectangular box shape; the choke block 182 is arc-shaped at one end and tapered at the other end.

It should be further noted that, when the camera head is used, the liquid outlet assembly 150 sprays the cleaning liquid to clean the protective cover 120, so that the mosquito mucus or corpse on the protective cover 120 is dissolved in the cleaning liquid, or the corpse of the mosquito is difficult to attach to the protective cover 120 after being cleaned by the cleaning liquid, and drops from the surface of the protective cover 120, then the heating assembly 170 heats the surface of the protective cover 120, so that the surface of the protective cover 120 can be dried quickly, and as the protective cover 120 cleaned by the cleaning assembly 210 may have fine dust particles, the electrostatic plate 181 on the inner wall of the groove 180a generates static electricity, so that the dust particles attached to the protective cover 120 are sucked into the groove 180a through the electrostatic plate 181, enter into the dust accumulation piece 183 through the first channel 180b and the second channel 180c, then the air outlet assembly 160 blows negative ion wind to the protective cover 120, and the negative ion wind is negatively charged, so as to combine with the bacteria, dust and other positively charged particles in the air, and agglomerate and fall down, so as to prevent the dust suspended in the cleaning cavity 140a from attaching to the surface of the protective cover 120, and the camera head is prevented from being affected by the effect of the camera head 120.

In at least one embodiment of the present application, the choke block 182 is provided with a large end 182a and a small end 182b, the large end 182a is close to the dust accumulation member 183, the small end 182b gradually extends toward the large end 182a, and the length direction of the choke block 182 is along the air flow direction of the first channel 180 b.

Referring to fig. 10 to 12, specifically, the large end 182a is configured in a semi-arc shape, the small end 182b is configured in a tapered shape, and the length direction of the choke block 182 is configured along the air flow direction of the first channel 180b because the small end 182b gradually extends toward the large end 182 a.

It should be further noted that the first channel 180b, the second channel 180c, and the choke block 182 form a tesla valve structure, so that dust entering the recess 180a can only enter the dust accumulation member 183 through the first channel 180b or the second channel 180c, so as to prevent dust in the recess 180a from entering the cleaning chamber 140a again.

In at least one embodiment of the present application, a dust accumulation chamber 183a communicating with the first passage 180b is formed inside the dust accumulation member 183; the dust accumulation member 183 further includes: the first air suction member 184, the first air suction member 184 is disposed in the dust accumulation cavity 183a, and the air suction end of the first air suction member 184 is communicated with the first channel 180 b.

Specifically, the first air suction member 184 is a fan.

It should be noted that, when the electrostatic assembly 180 works, the electrostatic plate 181 works to generate static electricity, so that the fine dust adhering to the protecting cover 120 is sucked into the groove 180a through the electrostatic plate 181, and the suction end of the first suction member 184 is communicated with the first channel 180b, so that the first suction member 184 generates suction force to enter the dust accumulation cavity 183a of the dust accumulation member 183 through the first channel 180b and the second channel 180c, so as to collect the dust, and prevent the dust from remaining in the first channel 180b or the second channel 180c, so as to prevent the first channel 180b or the second channel 180c from being blocked.

In at least one embodiment of the present application, the intelligent traffic device based on the internet of things cloud platform further comprises: the static eliminating piece 190, the static eliminating piece 190 is rotationally connected with the static assembly 180, and the static eliminating piece 190 is electrically connected with the mounting bracket 100; the rotating end of the first motor 200 is rotatably connected with one end of the static electricity removing member 190, and the first motor 200 rotates to drive the static electricity removing member 190 to abut or not abut against the surface of the static electricity component 180.

Specifically, the static eliminating member 190 is made of a metal conductive material, such as copper, iron, aluminum, etc., and the static eliminating member 190 has a substantially circular shape; the static electricity removing member 190 is rotatably connected with the static electricity assembly 180 through a rubber shaft or a plastic shaft; the first motor 200 is a gear motor, and one end of the static electricity removing member 190 is connected to the mounting bracket 100 through a wire.

It should be further noted that, when the electrostatic plate 181 works to generate static electricity, after the dust particles attached to the protection cover 120 are sucked into the groove 180a through the electrostatic plate 181, after a time T passes (T is 1 minute or 2 minutes or 3 minutes), the first motor 200 rotates to drive the static eliminating member 190 to rotate, so that one end (the other end connected with the mounting bracket 100) of the static eliminating member 190 is abutted against the static assembly 180, and the static electricity on the static assembly 180 is conducted to the mounting bracket 100 through the static eliminating member 190 and conducted to the ground through the mounting bracket 100, so that the dust on the electrostatic plate 181 falls into the first channel 180b or the second channel 180c and is sucked into the dust accumulation cavity 183a through the first channel 180b or the second channel 180 c.

In at least one embodiment of the present application, the intelligent traffic device based on the internet of things cloud platform further comprises: the cleaning assembly 210 is disposed in the first housing 140, a cleaning member 211 made of a flexible material is disposed on the cleaning assembly 210, the cleaning member 211 is located on a side close to the protective cover 120, and the cleaning member 211 can move along a direction close to or away from the protective cover 120, so that the cleaning member 211 is attached to or away from the surface of the protective cover 120.

Specifically, the cleaning member 211 is made of a flexible silicone material, and the cleaning member 211 has an arc shape to fit the surface of the protection cover 120.

It should be further noted that, when the device is used, the liquid can be sprayed out through the liquid outlet assembly 150 to clean the surface of the protective cover 120 so as to clean the mucus and mosquito adhering to the surface of the protective cover 120, then the heating assembly 170 heats the surface of the protective cover 120 so as to dry the surface of the protective cover 120, then the static assembly 180 generates static electricity to absorb dust into the groove 180a, the dust is sucked into the dust accumulation member 183 through the first channel 180b or the second channel 180c, and finally the air outlet assembly 160 blows negative ion air to the protective cover 120 so as to enable the dust on the protective cover 120 to fall off, after the cleaning is finished, the cleaning member 211 can move along the direction close to the protective cover 120 so as to enable the cleaning member 211 to be attached to the surface of the protective cover 120, and the protective cover 120 rotates relative to the mounting bracket 100 so that the cleaning member 211 cleans the protective cover 120 to erase water stains or water marks on the protective cover 120, thereby avoiding the influence on the shooting of the camera 130.

Still further, the cleaning assembly 210 is communicated with the external water tank, so that the cleaning member 211 is communicated with the external water tank, and in the cleaning process, the liquid in the water tank can enter the cleaning member 211 to clean the protective cover 120 after the cleaning is completed, even if water marks are generated in the previous step and attached to the protective cover 120, the cleaning member 211 can clean the water marks on the protective cover 120 to erase the water marks or the water marks on the protective cover 120, and the influence on the shooting of the camera 130 is avoided.

In at least one embodiment of the present application, the cleaning assembly 210 further includes: the output end of the first electric cylinder 212 is fixedly connected with one side of the cleaning piece 211 away from the protective cover 120; the first housing 140 is provided with a guide groove 140b, the cleaning member 211 is located in the guide groove 140b, and the first electric cylinder 212 can drive the cleaning member 211 to move along a surface close to or far from the protective cover 120.

Specifically, the first electric cylinder 212 is a linear electric cylinder; the guide groove 140b is disposed along the movement direction of the first electric cylinder 212, and the guide groove 140b is a rectangular groove;

it should be further noted that, the output end of the first electric cylinder 212 is fixedly connected with one side, away from the protective cover 120, of the cleaning member 211, so that the first electric cylinder 212 drives the cleaning member 211 to move in a direction close to the protective cover 120, when the cleaning member 211 is attached to the protective cover 120, the protective cover 120 rotates relative to the camera 130, the cleaning member 211 cleans the surface of the protective cover 120 to remove water marks on the surface of the protective cover 120, after cleaning, the first electric cylinder 212 returns, and the first electric cylinder 212 drives the cleaning member 211 to move in a direction away from the protective cover 120 in the guide groove 140 b.

It should be noted that, the cleaning process of the cleaning member 211 is located at the second last step, and the heating assembly 170 is used to continuously heat the cleaning chamber 140a in the last cleaning process, and the working processes of the liquid discharging assembly 150 and the electrostatic assembly 180 are located before the cleaning process of the cleaning member 211, so as to prevent the cleaning member 211 from scraping the surface of the protective cover 120 due to dust in the cleaning process.

In at least one embodiment of the present application, the tapping assembly 150 comprises: a plurality of liquid outlet holes 151a are formed in one side, close to the protective cover 120, of the liquid outlet piece 151; the liquid storage member 152 is communicated with the liquid outlet member 151.

Referring to fig. 6, specifically, a side of the liquid outlet member 151, which is close to the protective cover 120, is an arc surface, and the liquid outlet hole 151a is disposed on the arc surface; the liquid storage member 152 is internally formed with a liquid storage chamber for storing cleaning liquid, and the liquid storage member 152 is communicated with the liquid outlet member 151 through a hose.

It should be further noted that, during cleaning, the cleaning liquid in the liquid storage member 152 enters the liquid outlet member 151 and is sprayed to the surface of the protective cover 120 through the liquid outlet hole 151a, and the protective cover 120 is partially contained in the cleaning cavity 140a, so that the liquid outlet member 151 cleans the protective cover 120 in the cleaning cavity 140a through the liquid outlet hole 151a, thereby cleaning the surface of the protective cover 120 and cleaning mosquito mucus or corpse on the protective cover 120.

In at least one embodiment of the present application, the air outlet assembly 160 further includes: the second casing 162, the anion generator 161 is disposed in the second casing 162, and a first air outlet channel 162a is formed on one side of the second casing 162 close to the protective cover 120; the heating assembly 170 includes: the third casing 171 has an air inlet channel 171a and a second air outlet channel 171b formed on one side thereof adjacent to the protective cover 120; the heating member 172 is provided on the third housing 171 and communicates with the air inlet passage 171 a.

Specifically, the second casing 162 has a substantially trapezoidal structure, a fan is disposed in the second casing 162, and an air outlet of the first air outlet channel 162a faces the surface of the protective cover 120; the third casing 171 has a substantially trapezoidal shape, the third casing 171 has a fan therein, the heating element 172 is composed of a plurality of heating wires, the air inlet channel 171a is disposed parallel to the second air outlet channel 171b, and the air outlet direction of the air inlet channel 171a is not perpendicular to the center of sphere of the protective cover 120.

It should be further noted that, the air outlet assembly 160 blows negative ion air into the cleaning chamber 140a through the first air outlet channel 162a, negative ions in the negative ion air are negatively charged and can combine with particles with positive charges such as bacteria and dust in the air, and the particles are condensed and fall down, so as to prevent the dust suspended in the cleaning chamber 140a from adhering to the surface of the protective cover 120 again, the heating assembly 170 blows air into the cleaning chamber 140a through the heating element 172 and the air inlet channel 171a, so that the heating assembly 170 dries the protective cover 120 in the cleaning chamber 140a, and the protective cover 120 after the liquid outlet assembly 150 sprays liquid is dried, and because the second air outlet channel 171b is parallel to the air inlet channel 171a, the protective cover 120 has a hemispherical shape, and the air outlet direction of the air inlet channel 171a is not perpendicular to the sphere center of the protective cover 120, so that when the air of the air inlet channel 171a blows to the protective cover 120, a deflection in a certain direction is generated, thereby prolonging the residence time of the hot air in the cleaning chamber 140a, and the hot air cannot be blown out of the cleaning chamber 140a through the second air outlet channel 171b, so that energy consumption is saved.

In at least one embodiment of the present application, an engagement portion 121 is disposed at an end of the protective cover 120 near the mounting bracket 100, and one side of the protective cover 120 near the mounting bracket 100 is sleeved on the mounting bracket 100, so that the intelligent transportation device further comprises: a gear member 220 engaged with the engagement portion 121; the second motor 230 is disposed on the mounting bracket 100, and an output end of the second motor 230 is fixedly connected with an axle center of the gear member 220, so that the second motor 230 rotates to drive the gear member 220 to rotate, thereby enabling the protection cover 120 to rotate around the camera 130 as an axle.

Specifically, the engagement portion 121 is a rack that is annularly disposed; the gear member 220 is provided with a plurality of teeth; the second motor 230 is a gear motor.

It should be noted that, the second motor 230 drives the gear member 220 to rotate, and since the engaging portion 121 is engaged with the gear member 220, the second motor 230 drives the gear member 220 to rotate the protection cover 120 around the camera 130, so that the protection cover 120 rotates relative to the first housing 140, and the liquid outlet assembly 150, the air outlet assembly 160, the heating assembly 170, the electrostatic assembly 180 and the cleaning assembly 210 in the cleaning chamber 140a clean the protection cover 120 in the cleaning chamber 140 a.

Still further, the electrostatic assembly 180 is equipped with the cambered surface 185 near one side of safety cover 120, has seted up opening part 185a and dodge the groove that is linked together with opening part 185a on the cambered surface 185, and opening part 185a is linked together with recess 180a, and wisdom traffic device based on thing networking cloud platform still includes: a third motor 240 disposed on the electrostatic assembly 180; an eccentric member 250 provided at the opening 185a, the eccentric member 250 having a rotating portion 251 and an eccentric portion 253 connected to the rotating portion 251, the rotating portion 251 having a plurality of first teeth 252, the eccentric member 250 being partially accommodated in the escape groove; the output end of the third motor 240 is arranged in the annular member 260, the third motor 240 is meshed with the annular member 260, and the annular member 260 is meshed with the first teeth 252; the auxiliary member 270 is disposed on the electrostatic assembly 180, engaged with the inner ring of the ring member 260, and positioned at both ends of the ring member 260 with the third motor 240, respectively.

It should be noted that, the third motor 240 rotates to drive the ring member 260 to rotate, so as to rotate the eccentric member 250, and make the eccentric portion 253 of the eccentric member 250 enter the recess 180a from the external through opening 185a, so as to avoid dust from blocking the opening 185a.

Specifically, the third motor 240 is a gear motor, the auxiliary member 270 is a gear member 220, and is rotatably disposed on the electrostatic assembly 180, and the ring member 260 is a belt with teeth disposed on the inner side.

The embodiment of the application provides an intelligent traffic system based on an Internet of things cloud platform, which comprises the following steps of obtaining a cleaning instruction; generating a rotation command, executing the rotation command, and rotating the protective cover 120 relative to the mounting bracket 100; generating a liquid spraying command, a heating command, a deep cleaning command and an air outlet command according to the cleaning command; the spray command, the heat command, the deep cleaning command, and the air-out command are executed to clean the surface of the protection cover 120.

Please refer to fig. 13, it should be noted that, a cleaning instruction is obtained; generating a rotation command, executing the rotation command, and rotating the protective cover 120 relative to the mounting bracket 100; generating a liquid spraying command, a heating command, a deep cleaning command and an air outlet command according to the cleaning command; the liquid spraying command, the heating command, the deep cleaning command and the air outlet command are executed to clean the surface of the protection cover 120, so that the protection cover 120 is cleaned, and dust on the surface of the protection cover 120 is prevented from affecting the shooting effect of the camera 130.

While the application has been described with respect to the above embodiments, it should be noted that modifications can be made by those skilled in the art without departing from the inventive concept, and these are all within the scope of the application.

Claims (8)

1. An intelligent transportation device based on internet of things cloud platform, comprising: installing support, locate safety cover on the installing support with locate camera in the safety cover, its characterized in that, wisdom traffic device based on thing networking cloud platform still includes:

the first shell is arranged outside the protective cover, a cleaning cavity is formed in the first shell in a recessed mode in the direction away from the camera, and the protective cover is partially accommodated in the cleaning cavity;

the liquid outlet component is arranged in the cleaning cavity and is aligned with the protective cover;

the air outlet component is arranged in the cleaning cavity and is internally provided with a negative ion generator;

the heating component is arranged in the cleaning cavity;

a first direction disposed along a straight line direction from the protective cover to the ground;

the electrostatic assembly is arranged in the cleaning cavity, a groove, a first channel communicated with the groove and a second channel communicated with the first channel are formed in the electrostatic assembly, an electrostatic plate is arranged on the inner wall of the groove, the electrostatic assembly further comprises a choke block, and the first channel and the second channel are arranged around the choke block;

the dust accumulation piece is arranged at the bottom of the electrostatic assembly, is communicated with the first channel, and always flows to the dust accumulation piece along the first direction when the flow direction of air in the first channel is observed along the first direction;

the flow blocking block is provided with a large end and a small end, the large end is close to the dust accumulation piece, the small end gradually extends towards the large end, and the length direction of the flow blocking block is arranged along the air flow direction of the first channel.

2. The intelligent transportation device based on the internet of things cloud platform as claimed in claim 1, wherein a dust accumulation cavity communicated with the first channel is formed inside the dust accumulation piece;

the dust accumulation member further includes:

the first air suction piece is arranged in the dust accumulation cavity, and the air suction end of the first air suction piece is communicated with the first channel.

3. The internet of things cloud platform-based intelligent transportation device of claim 2, further comprising:

the static eliminating piece is rotationally connected with the static assembly and is electrically connected with the mounting bracket;

the rotating end of the first motor is rotationally connected with one end of the static eliminating piece, and the first motor rotates to drive the static eliminating piece to be in or out of contact with the surface of the static assembly.

4. The internet of things cloud platform-based intelligent transportation device of claim 1, further comprising:

the cleaning component is arranged in the first shell, a cleaning piece made of flexible materials is arranged on the cleaning component, the cleaning piece is located on one side close to the protective cover, and the cleaning piece can move along the direction close to or away from the protective cover so that the cleaning piece is attached to or away from the surface of the protective cover.

5. The internet of things cloud platform based intelligent transportation device of claim 4, wherein the cleaning assembly further comprises:

the output end of the first electric cylinder is fixedly connected with one side, far away from the protective cover, of the cleaning piece;

the first shell is provided with a guide groove, the cleaning piece is positioned in the guide groove, and the first electric cylinder can drive the cleaning piece to move along the surface close to or far away from the protective cover.

6. The internet of things cloud platform-based intelligent transportation device of claim 1, wherein the liquid outlet component comprises:

the liquid outlet piece is provided with a plurality of liquid outlet holes at one side close to the protective cover;

and the liquid storage piece is communicated with the liquid outlet piece.

7. The internet of things cloud platform-based intelligent transportation device of claim 1, wherein the air outlet assembly further comprises:

the negative ion generator is arranged in the second shell, and a first air outlet channel is formed in one side, close to the protective cover, of the second shell;

the heating assembly includes:

an air inlet channel and a second air outlet channel are formed in one side, close to the protective cover, of the third shell;

and the heating piece is arranged on the third shell and communicated with the air inlet channel.

8. The intelligent traffic device based on the cloud platform of the Internet of things according to claim 1, wherein one end of the protective cover, which is close to the mounting bracket, is provided with a meshing part, one side of the protective cover, which is close to the mounting bracket, is sleeved on the mounting bracket,

the intelligent transportation device further comprises:

a gear member engaged with the engagement portion;

the second motor is arranged on the mounting bracket, the output end of the second motor is fixedly connected with the axle center of the gear piece, so that the second motor rotates to drive the gear piece to rotate, and the protection cover rotates around the camera serving as an axle.