CN113518166A

CN113518166A - Spherical revolving stage surveillance camera machine of panorama control

Info

Publication number: CN113518166A
Application number: CN202110759979.0A
Authority: CN
Inventors: 何建中; 袁楚才; 谭赛; 郭永胜; 万晨
Original assignee: Shenzhen Nien Photoelectric Technology Co ltd
Current assignee: Chongqing Duchen Industrial Technology Co ltd
Priority date: 2021-07-06
Filing date: 2021-07-06
Publication date: 2021-10-19
Anticipated expiration: 2041-07-06
Also published as: CN113518166B

Abstract

The invention provides a panoramic monitoring spherical turntable monitoring camera, which comprises a mounting top plate, a protective shell, a detachable shell and a monitoring probe, wherein a plurality of dust-entering-preventing components capable of preventing dust from continuously entering are embedded in the inner wall of the bottom end of the protective shell in an up-down vertical direction in an equal-adjacent array manner; each group of dust-feeding prevention assemblies comprise an inner shell, a dust control assembly capable of controlling dust to come in and go out, an outer shell, a material control assembly capable of controlling dust-absorbing materials to come in and go out and a dust separation assembly capable of isolating dust. This kind of spherical revolving stage surveillance camera machine of panorama control can play the dust function of preventing into that improves the protective housing, even if when the camera meets haze or sand and dust weather, dust in the air is also difficult to be blown into by wind through the gap between dismantlement shell and the protective housing and dismantles in the shell, has guaranteed monitor's control definition's effect.

Description

Spherical revolving stage surveillance camera machine of panorama control

Technical Field

The invention relates to the technical field of monitoring, in particular to a panoramic monitoring spherical turntable monitoring camera.

Background

The existing panoramic spherical camera often works for 24 hours in a long time when monitoring, so that the installation environment requirement of the panoramic camera is high, electronic components in the long-time working interior of the panoramic camera are easy to damage, and therefore the interior of the panoramic camera needs to be maintained and maintained frequently, but most of the existing panoramic cameras are integrated equipment and cannot be detached randomly, and the panoramic spherical camera is quite troublesome to detach in maintenance.

Aiming at the problems, regarding the technical problem that the panoramic camera is inconvenient to detach, through a large number of searches, an intelligent panoramic ball machine monitoring camera with the patent number of CN201920961297.6 is inquired, the panoramic ball machine monitoring camera comprises an installation top plate, the bottom of the installation top plate is fixedly connected with a protective shell, the bottom of the protective shell is clamped with a detaching shell, the inner cavity of the protective shell is fixedly connected with a fixed plate, the inner cavity of the fixed plate is rotatably connected with a rotating plate, the bottom of the rotating plate is fixedly connected with a fixed block, the inner cavity of the fixed block is slidably connected with a sliding block, the inner cavity of the sliding block is provided with a hollow groove, and the inner cavity of the hollow groove is fixedly connected with a first partition plate; this intelligence panorama ball machine surveillance camera machine, when needs maintain and maintain monitor, outwards promulgate the protective housing, will dismantle the shell and take off, the returning face plate rotates downwards, and the returning face plate pulls the joint ball through the stay cord and makes its spherical groove in following the fixed block withdraw, loses the fixed to the sliding block, can conveniently take off the sliding block this moment fast, maintains and maintains the camera.

But the technical scheme that this patent provided is less strong to the dustproof function of protective housing, when the camera met haze or sand and dust weather, in the dust in the air was easily blown into by wind through the gap of dismantling between shell and the protective housing and is dismantled the shell, will produce the technical problem who reduces monitor probe monitoring definition.

Disclosure of Invention

The present invention is directed to solve the technical problems of the background art, and provides a panoramic monitoring spherical turntable surveillance camera.

In order to achieve the purpose, the invention provides the following technical scheme: a panoramic monitoring spherical turntable monitoring camera comprises an installation top plate, a protective shell, a detachable shell and a monitoring probe, wherein a plurality of dust-entering prevention components capable of preventing dust from entering continuously are embedded in the inner wall of the bottom end of the protective shell in an up-down vertical direction in an equal-adjacent array manner;

each group of the ash-entering prevention assembly comprises an inner shell, an ash control assembly capable of controlling the entry and exit of dust, an outer shell, a material control assembly capable of controlling the entry and exit of ash-absorbing materials and an ash separation assembly capable of isolating dust.

Further preferred embodiments: the appearance of each inner shell is hollow on the inner part and is opened at the upper left part on one longitudinal section, the top is flat closed and inclines 90 figure 6 shapes, every the impartial adjacent branch in level to position has seted up a plurality of and has bored, every around the bottom middle part of inner shell the equal rotatory grey subassembly of accuse, every of installing of inside central position of inner shell the right-hand member afterbody position of inner shell all is vertical direction fixed mounting and has the shell, every the outward appearance of shell all is letter J shape on a longitudinal section, every the inner shell is with every the top of shell all is in same horizontal plane, every the height of shell is every 2 times of inner shell height, every the outer wall upper right end of inner shell and every equal movable mounting has accuse material subassembly, every between the inner wall bottom of shell to the upper left end afterbody equal movable mounting in position has the ash removal subassembly.

Further preferred embodiments: each group of ash control components comprises a rotating shaft and a folded plate.

Further preferred embodiments: every the pivot all is the rotation of horizontal direction around the installation in every central point position, every between the front and back inner wall of inner shell the surface of pivot all encircles fixed mounting has a folded plate, every the outward appearance of folded plate all is left side down to one side, right horizontally shape of buckling on a longitudinal section, every the interior dog-ear of folded plate is 120, every the folded plate all is in static equilibrium state under normal conditions, every the right-hand member of folded plate all has magnetism.

Further preferred embodiments: each group of material control assemblies comprises a baffle plate, a storage tank and clean water.

Further preferred embodiments: every inclined to one side upper end position all is horizontal direction fixed mounting in the right inner wall of shell has a limiting plate, every the limiting plate all in every right inner wall slidable mounting of shell has a baffle directly over the position, every the length of limiting plate all is less than every the length of baffle, every the equal fixed mounting in position of right outer wall upper end of inner shell and every between the right inner wall upper end of shell has the stock chest, every the internal position of stock chest all pre-installs the clear water.

Further preferred embodiments: each baffle plate has the magnetism different from the right end of each folded plate, the middle end positions of the right inner wall and the right outer wall of each inner shell are respectively provided with an arc groove, and the right end of each folded plate and the left end of each baffle plate are horizontally attached to each arc groove due to the magnetism under the normal condition.

Further preferred embodiments: every the passageway has all been seted up to the bottom left part position of stock chest, every the top left part position of baffle all is vertical direction fixed mounting has the cutting, every the equal fixedly connected with balloon in top position of cutting, every the cutting all inserts every under normal conditions the passageway and with every the balloon seals the head end export of every passageway.

Further preferred embodiments: each group of the dust isolating assemblies comprises quicklime powder, a metal plate and an air bag.

Further preferred embodiments: quick lime powder is preassembled at the bottom end of the inner wall of each outer shell, a metal plate is fixedly mounted between the left end of the inner wall of each outer shell and the left end of the outer wall of each inner shell in the vertical direction, each metal plate is made of copper, and an air bag is fixedly mounted between the top of the left end of each outer shell and the bottom of the left end of each inner shell in the vertical direction on the outer surface of the left side of each metal plate.

Has the advantages that:

1. the panoramic monitoring spherical turntable monitoring camera is provided with an ash-entering prevention assembly, utilizes the principles of lever and expansion and contraction, when the camera encounters haze or dust weather, dust in the air is blown into a gap between a disassembly shell and a protection shell, the dust firstly falls onto an ash control assembly in an inner shell through an inlet at the upper left end of the inner shell of the ash-entering prevention assembly, the ash control assembly of the ash-entering prevention assembly is enabled to move under the action of the lever principle, then the dust continuously falls onto the bottom end in the outer shell of the ash-entering prevention assembly through a plurality of outlet holes on the bottom end of the inner shell, in the process of moving of the ash control assembly, the material control assembly of the ash-entering prevention assembly is triggered to move so as to release materials capable of absorbing ash to the bottom end of the outer shell, meanwhile, high-temperature heat is generated through an ash separation assembly of the ash-entering prevention assembly, and the dust is isolated from continuously overflowing under the action of the principle of expansion and contraction, therefore, dust is prevented from entering the detachable shell, and the monitoring definition of the monitoring probe is ensured;

2. according to the spherical turntable monitoring camera for panoramic monitoring, the dust control assembly is arranged, and by utilizing a lever principle, when dust does not enter a gap between the detachable shell and the protective shell, a folded plate of the dust control assembly is in a static balance state; however, when dust enters the gap between the detachable shell and the protective shell, the dust gradually breaks through the state that when dust falls into the inner shell through the inlet at the upper left end of the inner shell of the dust-entering prevention assembly as described above, the dust firstly falls onto the surface at the left end of the folded plate to increase the gravity of the left end of the folded plate, the folding plate rotates anticlockwise under the action of a lever principle, when the left end of the folding plate rotates to the bottom end of the inner shell, dust on the folding plate can be guided into the outer shell along a plurality of outlet holes at the bottom end of the inner shell for collection, meanwhile, the material control component and the ash separation component of the subsequent ash-entering prevention component are triggered to move through the magnetism at the right end of the folded plate, the folded plate reversely rotates clockwise to return under the action of the lever principle after the dust falls off, so that the dust collected in the shell is prevented from flying out again, and the dust in and out is controlled;

3. according to the panoramic monitoring spherical turntable monitoring camera, the material control assembly and the dust separation assembly are arranged, the principle of expansion with heat and contraction with cold is utilized, when dust does not enter a gap between the detachable shell and the protective shell, the baffle plate of the material control assembly is attached to the arc groove at the middle end of the right outer wall of the inner shell in a static state due to the fact that the baffle plate is magnetically attracted with the right end of the folded plate of the dust control assembly, the insert strip of the baffle plate is inserted into the channel of the material storage groove of the material control assembly, the balloon on the insert strip is located in the material storage groove and is in the head end outlet state of the closed channel, clean water in the material storage groove does not overflow, and the air bag of the dust separation assembly is in a natural state; however, when dust enters the gap between the disassembling shell and the protecting shell, the state can be gradually broken, that is, in the process that the dust makes the folded plate of the dust control assembly rotate anticlockwise, the right end of the folded plate can leave the arc groove at the middle end of the right inner wall of the inner shell, so that the magnetic attraction to the baffle is gradually reduced, finally the gravity of the baffle is larger than the suction force of the right end of the folded plate to the baffle, the baffle slides downwards on the outer shell, the inserting strip and the balloon are pulled out of the channel of the storage tank, the clear water in the storage tank is discharged, after the baffle falls on the limiting plate, the clear water can fall to the bottom end of the outer shell along the gap between the left side of the baffle and the right outer wall of the inner shell, besides absorbing the dust which previously falls, the clear water can also contact with the dust powder of the dust isolating assembly, the clear water and the dust powder generate a large amount of high-temperature heat, the heat is transferred to the metal plate of the dust isolating assembly, and the quicklime can be rapidly transferred to the air bag of the dust isolating assembly, the water absorption material is heated to expand, so that the water absorption material is tightly attached to the surface between the protective shell and the dismounting shell to prevent dust from overflowing through the gap, and the water absorption material is released and the dust overflowing channel is isolated;

4. to sum up, this kind of spherical revolving stage surveillance camera machine of panorama control through preventing into the cooperation effect jointly of grey subassembly, accuse material subassembly and separating grey subassembly etc. can improve the dustproof function that advances of protective housing, even if when the camera meets haze or dust and sand weather, dust in the air is also difficult to be blown into by wind through the gap of dismantling between shell and the protective housing and is dismantled in the shell, has guaranteed monitor probe's control definition.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 3B according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4 at C according to the present invention;

FIG. 6 is a perspective view of the inner shell of the present invention;

FIG. 7 is a schematic perspective view of the housing and the heat control assembly of the present invention;

in FIGS. 1-7: 1, installing a top plate; 2-protective shell; 3-disassembling the shell; 4-monitoring the probe;

5-an ash-ingress prevention component; 501-inner shell; 502-a grey control assembly; 503-a housing; 504-material control component; 505-a dust barrier assembly;

5021, a rotating shaft; 5022 folding plates;

5031-a limiting plate;

5041-baffle plate; 5042-a storage tank; 5043-clear water;

50411-cutting; 50412-balloon;

5051-quicklime powder; 5052-metal plate; 5053-air bag.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 7 in the embodiment of the present invention.

Example 1

Referring to fig. 1-4 and 6-7, in an embodiment of the present invention, a panoramic monitoring spherical turntable surveillance camera includes a mounting top plate 1, a protective shell 2, a detachable shell 3, and a monitoring probe 4, wherein a plurality of dust-ingress-prevention components 5 capable of preventing dust from continuously entering are embedded in the inner wall of the bottom end of the protective shell 2 in an up-down vertical direction in an equal and adjacent array;

each group of dust-entering prevention assemblies 5 comprises an inner shell 501, a dust control assembly 502 capable of controlling the dust to enter and exit, an outer shell 503, a material control assembly 504 capable of controlling the dust-absorbing material to enter and exit, and a dust isolation assembly 505 capable of isolating the dust.

In the embodiment of the present invention, each inner shell 501 has a hollow interior and an open upper left in a longitudinal section, the inner wall of the inner shell 501 is a numeral 6 shape which is flat and closed on the top and inclined by 90 degrees, a plurality of outlet holes are formed in the middle of the bottom end of each inner shell 501 in a vertically-vertical direction in an equal and adjacent manner, an ash control component 502 is rotatably mounted at the central position inside each inner shell 501, an outer shell 503 is fixedly mounted at the tail position of the right end of each inner shell 501 in an up-and-down direction, the outer appearance of each outer shell 503 is in a letter J shape on a longitudinal section, the top ends of each inner shell 501 and each outer shell 503 are positioned on the same horizontal plane, the height of each outer shell 503 is 2 times of the height of each inner shell 501, a material control component 504 is movably mounted between the upper end of the right outer wall of each inner shell 501 and the upper end of the right inner wall of each outer shell 503, and an ash isolating component 505 is movably mounted between the bottom end of the inner wall of each outer shell 503 and the tail of the left upper end;

here, the outer appearance of the inner casing 501 is designed to be a figure 6 shape with a hollow inner part, an upper left opening, a flat top closing and an inclination of 90 ° on a longitudinal section, so that dust entering through a gap between the protective casing 2 and the detachable casing 3 can be guided into the inner casing 501 through the upper left opening of the inner casing 501 and finally collected by the outer casing 503, the top of the inner casing 501 is horizontal to conveniently fixedly support the outer casing 503, and the figure 6 shape with an inclination of 90 ° is convenient for the dust control assembly 502 to move in the inner casing 501; here, the outer casing 503 is designed to have a letter J shape in a longitudinal section, and the height of the outer casing is 2 times of the height of the inner casing 501, so as to conveniently accommodate the material control assembly 504 and the dust isolation assembly 505, and collect and isolate dust from continuously overflowing after the dust is guided down through a plurality of outlet holes of the inner casing 501.

The spherical turntable monitoring camera for panoramic monitoring is provided with the dust-entering prevention assembly 5, by utilizing the principles of lever and expansion and contraction, when the camera encounters haze or dust weather, dust in the air is blown into a gap between the dismounting shell 3 and the protective shell 2 by wind, the dust firstly falls onto the dust control assembly 502 in the inner shell 501 through the inlet at the upper left end of the inner shell 501 of the dust-entering prevention assembly 5, the dust control assembly 502 of the dust-entering prevention assembly 5 is enabled to move under the action of the lever principle, then the dust continuously falls onto the bottom end inside the outer shell 503 of the dust-entering prevention assembly 5 through a plurality of outlet holes on the bottom end of the inner shell 501, in the process of moving the dust control assembly 502, the material control assembly 504 of the dust-entering prevention assembly 5 is triggered to move to release materials capable of absorbing dust to the bottom end of the outer shell 503 so as to absorb dust, and meanwhile, high-temperature heat is generated through the dust isolating assembly 505 of the dust-entering prevention assembly 5, and keep apart the dust under the effect of expend with heat and contract with cold principle and continue to overflow, so in order to prevent that the dust from entering to dismantling in the shell, guaranteed monitor probe's control definition.

Example 2

Referring to fig. 4, the embodiment of the present invention is different from embodiment 1 in that: each set of ash control assemblies 502 includes a shaft 5021 and a flap 5022.

In the embodiment of the invention, each rotating shaft 5021 is rotatably arranged at the central position between the front inner wall and the rear inner wall of each inner shell 501 in the front-rear horizontal direction, a folded plate 5022 is fixedly arranged on the outer surface of each rotating shaft 5021 in a surrounding manner, the appearance of each folded plate 5022 is in a bent shape with a left inclined downwards and a right horizontal on a longitudinal section, the internal folding angle of each folded plate 5022 is 120 degrees, each folded plate 5022 is in a static balance state under a normal condition, and the right end of each folded plate 5022 is magnetic;

the appearance of the folded plate 5022 is a bent shape with a left oblique lower end and a right horizontal end in a longitudinal section, so that dust can directly fall to the left end surface of the folded plate 5022 after being introduced through the left upper end inlet of the inner housing 501 to press the folded plate 5022 to rotate counterclockwise, and the inward folding angle of the folded plate 5022 is 120 degrees, so that the right end of the folded plate 5022 can keep a horizontal static balance state under normal conditions to be magnetically attracted with the subsequent material control assembly 504.

According to the spherical turntable monitoring camera for panoramic monitoring, the dust control assembly 502 is arranged, and by utilizing the lever principle, when dust does not enter a gap between the dismounting shell 3 and the protective shell 2, the folded plate 5022 of the dust control assembly 502 is in a static balance state; however, when dust enters the gap between the detachable housing 3 and the protective housing 2, the dust will gradually break through the state that when dust falls into the inner housing 501 through the inlet at the left upper end of the inner housing 501 of the dust-entering prevention assembly 5 as described above, the dust will first fall onto the surface at the left end of the folded plate 5022 to increase the gravity at the left end of the folded plate 5022, the folded plate 5022 will rotate counterclockwise under the action of the lever principle, when the left end of the folded plate 5022 is rotated to the bottom end of the inner housing 501, the dust thereon will be guided into the outer housing 503 along a plurality of outlets at the bottom end of the inner housing 501 for collection, and the material control assembly 504 and the dust-separating assembly 505 of the subsequent dust-entering prevention assembly 5 will be triggered to move by the magnetism at the right end of the folded plate 5022, so as to absorb the fallen dust, after the dust falls, the folded plate 5022 will reversely rotate clockwise for returning to prevent the dust collected in the outer housing 503 from flying out again, thus realizing the control of dust in and out.

Example 3

Referring to fig. 4-7, the embodiment of the present invention differs from embodiment 1 in that: each group of material control assemblies 504 comprises a baffle 5041, a storage tank 5042 and clean water 5043.

In the embodiment of the invention, limiting plates 5031 are fixedly mounted on the upper middle end of the right inner wall of each outer shell 503 in the horizontal direction, a baffle 5041 is slidably mounted on the right inner wall of each outer shell 503 right above each limiting plate 5031, the length of each limiting plate 5031 is smaller than that of each baffle 5041, a storage tank 5042 is fixedly mounted between the upper end of the right outer wall of each inner shell 501 and the upper end of the right inner wall of each outer shell 503, and clean water 5043 is preloaded in each storage tank 5042.

In the embodiment of the invention, each baffle 5041 has magnetism different from the right end of each folded plate 5022, the middle ends of the right inner wall and the right outer wall of each inner shell 501 are respectively provided with an arc groove, and the right end of each folded plate 5022 and the left end of each baffle 5041 are horizontally attached to each arc groove due to magnetism under normal conditions;

the limiting plate 5031 can prevent the baffle 5041 from sliding downwards and moving over after the right end of the folded plate 5022 is far away from the baffle, and the length of the limiting plate 5031 is smaller than that of the baffle 5041, so that after the baffle 5041 slides downwards and leaves the bottom end of the storage tank 5042 to discharge the clean water 5043 in the storage tank, the clean water 5043 can fall into the bottom end of the outer shell 503 along a gap between the baffle 5041 and the outer wall of the inner shell 501; the shield 5041 has a magnetic property different from the right end of the flap 5022 to normally retain the magnetic attraction with the flap 5022 to block the reservoir 5042 and prevent the clear water 5043 from underflowing.

In the embodiment of the invention, a channel is formed at the left part of the bottom end of each storage tank 5042, the left part of the top end of each baffle 5041 is fixedly provided with a cutting 50411 in the vertical direction, the top end of each cutting 50411 is fixedly connected with a balloon 50412, and each cutting 50411 is inserted into each channel under normal conditions to seal the outlet of the head end of each channel by each balloon 50412;

the balloon 50412 is used to block the passage of the storage tank 5042 together with the plug 50411 and the baffle 5041 to prevent the fresh water 5043 from flowing down when dust is not entering the inner housing 501.

In the embodiment of the invention, each group of the dust isolating components 505 comprises quicklime powder 5051, a metal plate 5052 and an air bag 5053.

In the embodiment of the invention, quicklime powder 5051 is pre-installed at the bottom end of the inner wall of each outer shell 503, metal plates 5052 are fixedly installed between the left end of the inner wall of each outer shell 503 and the left end of the outer wall of each inner shell 501 in the vertical direction, each metal plate 5052 is made of copper, and an air bag 5053 is fixedly installed between the top of the left end of each outer shell 503 and the bottom of the left end of each inner shell 501 in the vertical direction on the outer surface of the left side of each metal plate 5052;

here, the quicklime powder 5041 may contact with the underflow clean water 5043 to generate heat and transfer the heat to the metal plate 5052, and the metal plate 5052 made of copper has good thermal conductivity, so that the high-temperature heat can be quickly transferred to the surface of the airbag 5053 to be tightly attached to the surface between the protective case 2 and the detachable case 3 after being expanded, thereby preventing the dust from continuously overflowing.

According to the panoramic monitoring spherical turntable monitoring camera, the material control assembly 504 and the dust isolating assembly 505 are arranged, by utilizing the principle of thermal expansion and cold contraction, when dust does not enter a gap between the detachable shell 3 and the protective shell 2, the baffle 5041 of the material control assembly 504 is in a static state attached to the arc groove at the middle end of the right outer wall of the inner shell 501 due to magnetic attraction with the right end of the folded plate 5022 of the dust controlling assembly 502, the insert 50411 of the baffle 5041 is in a channel inserted into the storage groove 5042 of the material control assembly 504, the balloon 50412 on the insert 50411 is positioned in the storage groove 5042 and is in a head end outlet state of a closed channel, clear water 5043 in the storage groove 5042 does not overflow, and the air bag 5053 of the dust isolating assembly 505 is in a natural state; however, when dust enters the gap between the detachable shell 3 and the protective shell 2, the state is gradually broken, that is, in the process that the dust makes the flap 5022 of the dust control assembly 502 rotate counterclockwise as described above, the right end of the flap 5022 leaves the arc groove at the middle end of the right inner wall of the inner shell 501, so that the magnetic attraction force on the baffle 5041 is gradually reduced, and finally the gravity of the baffle 5041 is greater than the suction force of the right end of the flap 5022 on the baffle 5041, so that the baffle 5041 slides down on the outer shell 503, thereby pulling the insert 50411 and the balloon 50412 out of the channel of the storage tank 5042, discharging the clean water 5043 in the storage tank 5042, after the baffle 5041 falls onto the limiting plate 5031, the clean water 5043 can fall down to the bottom end of the outer shell 503 along the gap between the left side of the baffle 5041 and the right outer wall of the inner shell 501, and can contact with the powder 5051 of the quicklime of the dust isolation assembly 505 besides absorbing the dust, so that a large amount of high temperature heat is generated by the two, the heat is transferred to the metal plate 5052 of the dust isolating component 505 and then is rapidly transferred to the air bag 5053 of the dust isolating component 505, so that the air bag 5053 is heated to expand, and the surface between the air bag and the protective shell 2 and the surface between the air bag and the detachable shell 3 are tightly attached to prevent dust from overflowing through the gap, and therefore the water absorbing material is released and the dust overflow channel is blocked.

Claims

1. The utility model provides a spherical revolving stage surveillance camera machine of panorama control, includes installation roof (1), protective housing (2), dismantles shell (3) and monitor (4), its characterized in that: the protective shell (2) is provided with a plurality of dust-entering prevention assemblies (5) which can prevent dust from continuously entering;

each group of the dust-entering prevention assemblies (5) comprises an inner shell (501), a dust control assembly (502) capable of controlling the dust to enter and exit, an outer shell (503), a material control assembly (504) capable of controlling the dust-absorbing material to enter and exit and a dust isolation assembly (505) capable of isolating the dust.

2. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: the appearance of each inner shell (501) is in a figure 6 shape with a hollow inner part, an upper left opening, a flat top closing and an inclination of 90 degrees on a longitudinal section.

3. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: the outer appearance of each of the housings (503) is in the shape of a letter J in a longitudinal section.

4. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: the height of each outer shell (503) is 2 times of the height of each inner shell (501).

5. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: each group of the ash control assemblies (502) comprises a folded plate (5022), and the appearance of each folded plate (5022) is in a bent shape with a left lower inclined and a right horizontal on one longitudinal section.

6. The panoramic monitoring spherical turntable monitoring camera according to claim 5, characterized in that: the inward folding angle of each folded plate (5022) is 120 degrees, and each folded plate (5022) is in a static balance state under a normal condition.

7. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: each group of material control assemblies (504) comprises clean water (5043).

8. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: each group of the dust isolating components (505) comprises quicklime powder (5051).

9. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: each group of the dust isolating components (505) further comprises a metal plate (5052), and the material of each metal plate (5052) is copper.

10. The panoramic monitoring spherical turntable monitoring camera according to claim 1, characterized in that: each group of the dust isolating components (505) also comprises an air bag (5053).