CN116736733B - Intelligent home automatic control management system - Google Patents

Abstract

The invention relates to the technical field of household indoor and outdoor monitoring, in particular to an intelligent household automatic control management system, which comprises: after the inside gas ring channel of camera body enters into the intercommunication inslot portion, rotate along with the scavenger fan, and then gaseous communication inslot portion on the ring spare flows, and through making the ring spare middle part be round platform form setting, and the opening slope of intercommunication groove is towards the position at ring spare middle part, so when gas spouts through the intercommunication groove, gas can blow the impurity in the air, can strike each other in the position of camera through intercommunication groove spun gas, and then form an air current layer in the position of camera, and then when the impurity in the air is being close to the position of camera, can be blown by the air current layer that forms before the camera, and then can avoid impurity in the air to contact with the camera to a certain extent, and then can keep the camera cleanliness to a certain extent, and then improve the availability factor of camera.

Description

Intelligent home automatic control management system

Technical Field

The invention relates to the technical field of home monitoring, in particular to an intelligent home automatic control management system.

Background

The intelligent home uses the home as a platform, integrates facilities related to home life by utilizing a comprehensive wiring technology, a network communication technology, a security technology, an automatic control technology and an audio and video technology, builds an efficient management system of home facilities and family schedule matters, improves the safety, convenience, comfort and artistry of the home, and realizes an environment-friendly and energy-saving living environment; the safety protection technology in the intelligent furniture control management system plays a vital role in the whole system.

In real life, intelligent furniture safety protection technologies are mostly intelligent home cameras when in use; the intelligent camera can remotely monitor real-time dynamics in a home, can capture door and window dynamics in the home, can capture photos if the intelligent camera is started, can control the camera through the mobile phone terminal APP, and is convenient to use.

The camera still has the following disadvantages when in use:

when using when outdoor, if outdoor when carrying out the rainy, the rainy has less weight, and when the rainwater carries out the whereabouts in the sky, the rainy can fly to the direction of camera lens, and the rainy can fall the lens top, when the rainy falls the lens top, can influence the monitoring degree around to the camera.

When the lens is used outdoors, if the lens has larger dust, the dust can be driven to flow towards the direction of the lens by the airflow in the air along with the airflow in the air; when the dust contacts with the lens, the cleaning degree of the lens can be influenced if the lens is not cleaned, and when the lens is cleaned, the lens is arranged at a higher position, so that the cleaning is inconvenient.

In summary, in order to solve the above technical problems, the present invention provides an intelligent home automatic control management system.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides an intelligent household automatic control management system for solving the technical problems.

The technical scheme adopted for solving the technical problems is as follows: an intelligent home automatic control management system; the system comprises an information control module, an image acquisition module, a sound acquisition module and a wireless information transmission module, wherein the information control module is arranged in the camera and is used for analyzing and distributing the acquired information of the camera;

the image acquisition module is connected with the information control module through an electric signal;

the sound collection module is arranged inside the camera and comprises an audio receiver, the audio receiver is positioned on the side face of the camera and is electrically connected with the information control module, and the audio receiver is used for receiving surrounding sounds;

the wireless information transmission module is in electric signal connection with the information transmission module, and is connected with the mobile phone end through internet signals.

The monitoring device comprises a home camera, wherein the camera comprises a cradle head, a camera body, a lens and an air inlet; the camera body can rotate on the cradle head; the lens is arranged on the camera body; the air inlet is arranged at one end of the camera body, which is far away from the lens; and also comprises

The annular piece is arranged on the camera body, the annular middle part of the annular piece is in a round table shape, the side surface of the annular piece is uniformly provided with communication grooves, and one side of the communication groove positioned on the inner wall of the annular piece is inclined towards the middle part of the annular piece;

the annular groove is arranged in the inner wall of the camera body and is communicated with the communication groove;

the ventilator is arranged inside the camera body and is used for realizing ventilation inside the camera body;

the cooling assembly is arranged on the camera body and is used for cooling the camera body.

As a preferred aspect of the present invention, the cooling module includes;

the cooling groove is formed in the camera body, and the maximum diameter of the cooling groove is smaller than the minimum diameter of the annular groove; the cooling groove is communicated with the space where the ventilator is located;

the annular sealing block is arranged at one end of the cooling groove, which is close to the ventilator;

the annular baffle plate is fixedly connected to one end, close to the lens, of the cooling groove

Cooling water is filled between the annular sealing block and the annular baffle plate;

the water inlet is arranged on the camera body, the water inlet is communicated with the cooling groove, the water inlet is positioned between the annular sealing block and the annular baffle plate, and the water inlet is used for filling water into the cooling groove.

As the preferable scheme of the invention, the camera body is provided with the rain sensor, the opening of the water inlet at the cooling groove is provided with the induction switch, the induction switch is connected through the rain sensor, one end of the water inlet far away from the camera body is provided with the conical funnel, the filter layer is arranged in the conical funnel, and the filter screen is connected at the upper end of the filter layer in a detachable mode.

As a preferable scheme of the invention, the filter screen is made of stainless steel.

As a preferable scheme of the invention, the annular sealing block is rotationally connected with the cooling groove, one end of the annular sealing block, which is close to the ventilator, is fixedly connected with a threaded ring, and the threaded ring is in threaded connection with one end of the cooling groove, which is close to the ventilator; the screw ring is provided with a right-angle connecting rod, one end of the right-angle connecting rod, which is close to the ventilator, is provided with a bar groove, a sliding rod is connected in the bar groove in a sliding way, an electric telescopic rod is fixedly connected in the bar groove, the electric telescopic rod is used for realizing the movement of the sliding rod, and the sliding rod contacts with the sliding rod when the sliding rod approaches the middle part of the ventilator and the ventilator rotates; the annular baffle plates are uniformly provided with water outlets; and valves are uniformly arranged in the water outlet.

As a preferable scheme of the invention, rectangular grooves are uniformly formed on the fan blades of the ventilator, and after the sliding rod is contacted with the ventilator, the sliding rod enters the rectangular grooves.

As a preferable scheme of the invention, the annular piece is rotatably connected to the camera body, an arc-shaped groove is formed in the annular piece, and the water outlet is sealed in the initial state of the arc-shaped groove; and annular spout has been seted up on the camera body, just the diameter of spout is less than the diameter of cooling tank, just the spout is inside to have the slider through sliding connection, just the pivot that is equipped with the torsional spring through the cover on the slider articulates there is the clearance pole, and the rotation angle of clearance pole is 90, the standing groove has been seted up to the ring member, just the standing groove with the spout corresponds.

The beneficial effects of the invention are as follows:

1. according to the intelligent home automatic control management system, when the camera body is used outside a house and the weather is cold, the inside of the camera body is used, the temperature inside the camera body is increased along with the operation of the camera body when the camera body is used, the temperature is limited along with the temperature increase, but the temperature of the gas sprayed out of the camera body is higher than the outdoor temperature when the gas inside the camera body is sprayed out of the camera body, and when the camera body is used in an outdoor cold area, the camera body can have the effect of defogging a lens, so that the definition of the camera body in outdoor use is ensured.

According to the intelligent household automatic control management system, after the gas annular groove in the camera body enters the communicating groove, the gas rotates along with the ventilating fan, so that the gas flows out of the communicating groove in the annular piece, the middle of the annular piece is arranged in a circular table shape, and the opening of the communicating groove is inclined towards the middle of the annular piece, so that when the gas is sprayed out through the communicating groove, the gas blows impurities in the air, the gas sprayed out through the communicating groove can mutually impact at the position of the lens, so that an airflow layer is formed at the position of the lens, and when the impurities in the air approach to the position of the lens, the airflow layer formed before the lens blows, so that the impurities in the air are prevented from contacting the lens to a certain extent, the cleanliness of the lens can be kept to a certain extent, and the use efficiency of the camera is improved.

Drawings

The invention will be further described with reference to the drawings and embodiments.

FIG. 1 is a perspective view of a camera body of the present invention;

FIG. 2 is a partial cross-sectional view of a camera body of the present invention;

FIG. 3 is a structural view of the camera body of FIG. 1;

FIG. 4 is an internal structural view of the camera body of FIG. 3;

FIG. 5 is a cross-sectional view of the camera body;

FIG. 6 is a structural view of a right angle link and slide bar of the present invention;

FIG. 7 is a view showing the structure of a cooling module of the present invention;

FIG. 8 is a structural view of the ring member of the present invention;

FIG. 9 is a view showing the structure of the water inlet in the present invention;

FIG. 10 is a system flow diagram in the present invention;

in the figure: cradle head 1, camera body 11, lens 12, air inlet 13, ring 14, arc groove 141, chute 142, slider 143, cleaning lever 144, holding tank 145, communication tank 15, annular groove 16, ventilator 17, rectangular groove 171, rain sensor 18, cooling module 2, cooling tank 21, annular seal block 22, annular baffle 23, water inlet 24, inductive switch 25, conical funnel 26, filter layer 27, filter screen 28, threaded ring 29, right angle link 291, bar groove 292, slide rod 293, electric telescopic rod 294, water outlet 295, audio receiver 3.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1:

an intelligent home automatic control management system; as shown in fig. 1-9, the system comprises a monitoring device, wherein the monitoring device comprises a home camera, and the camera comprises a cradle head 1, a camera body 11, a lens 12 and an air inlet 13; the camera body 11 can rotate on the cradle head 1; the lens 12 is arranged on the camera body 11; the air inlet 13 is arranged at one end of the camera body 11 far away from the lens 12; also comprises;

the annular piece 14 is arranged on the camera body 11, the annular middle part of the annular piece 14 is in a round table shape, the side surfaces of the annular piece 14 are uniformly provided with the communication grooves 15, and one side of the communication groove 15 positioned on the inner wall of the annular piece 14 is inclined towards the middle part of the annular piece 14;

an annular groove 16, the annular groove 16 is arranged in the inner wall of the camera body 11, and the annular groove 16 is communicated with the communication groove 15;

the ventilator 17, the ventilator 17 is set up in the body 11 of the camera, and the ventilator 17 is used for realizing the inside ventilation of the body 11 of the camera;

the cooling component 2 is arranged on the camera body 11, and the cooling component 2 is used for cooling the camera body 11;

the cooling assembly 2 comprises;

the cooling groove 21, the cooling groove 21 is opened in the inside of the camera body 11, and the maximum diameter of the cooling groove 21 is smaller than the minimum diameter of the annular groove 16; and the cooling groove 21 is communicated with the space where the ventilator 17 is positioned;

an annular seal block 22, the annular seal block 22 being disposed at one end of the cooling tank 21 near the ventilator 17;

an annular baffle plate 23, the annular baffle plate 23 is fixedly connected with one end of the cooling groove 21 close to the lens 12

Cooling water is filled between the annular sealing block 22 and the annular baffle plate 23;

the water inlet 24 is arranged on the camera body 11, the water inlet 24 is communicated with the cooling groove 21, the water inlet 24 is positioned between the annular sealing block 22 and the annular baffle plate 23, and the water inlet 24 is used for filling water in the cooling groove 21;

when the household camera is used, the camera works generally all the day long, so that the camera needs to be subjected to heat dissipation when the common camera is used, so as to ensure the monitoring efficiency of the camera in the household or outside the household; when the camera works, the ventilator 17 inside the camera rotates, when the ventilator 17 rotates, the ventilator 17 drives the airflow inside the camera to flow, so that the airflow inside the ventilator 17 flows into the annular groove 16, when the air enters the annular groove 16, the air flows inside the annular groove 16, then the air enters the through groove inside the annular piece 14 through the annular groove 16, and then the airflow inside the camera body 11 flows into the through groove 15 through the annular groove 16 along with the continuous rotation of the ventilator 17.

At this time, negative pressure is generated inside the camera body 11, and then the air is extracted to the outside through the air inlet 13 inside the camera body 11 along with the rotation of the ventilator 17, so that the outside air enters the inside of the camera body 11, the ventilation of the air inside the camera body 11 is realized, the exchange of the air inside the camera body 11 is realized, the situation that the air inside the camera body 11 cannot be discharged inside is avoided, the air temperature inside the camera body 11 is continuously increased, and the working efficiency of the camera body 11 is influenced is avoided;

one of these is the case; when the gas annular groove 16 in the camera body 11 enters the communicating groove 15, the gas rotates along with the ventilation fan 17, and then the gas flows out from the inside of the communicating groove 15 on the annular piece 14, and the middle part of the annular piece 14 is arranged in a truncated cone shape, and the opening of the communicating groove 15 is inclined towards the middle part of the annular piece 14, so when the gas is sprayed out through the communicating groove 15, the gas blows impurities in the air, the gas sprayed out through the communicating groove 15 mutually impacts at the position of the lens 12, and then a gas flow layer is formed at the position of the lens 12, and then when the impurities in the air approach to the position of the lens 12, the gas flow layer formed before the lens 12 blows, and then the impurities in the air are prevented from contacting with the lens 12 to a certain extent, so that the cleanliness of the lens 12 can be kept to a certain extent, and the use efficiency of the camera is improved;

another case is; when the camera body 11 is used outside a house, when the weather is cold, the inside of the camera body 11 is used, when the inside of the camera body 11 is used, the temperature inside the camera body 11 is raised along with the operation of the camera body 11, the temperature raising range is limited, but when the gas inside the camera body 11 is sprayed out from the inside, when the camera body 11 is used in an outdoor cold area, the camera body 11 can play a role in defogging the lens 12, and the definition of the camera body 11 in outdoor use is further ensured;

another case is; when the camera body 11 is used outside a house, when the outdoor rains, the gas in the camera body 11 is sprayed from the inside, and the sprayed path is finally sprayed from the inside of the communication groove 15 through the annular groove 16, the sprayed gas blows the front of the lens 12, and the gas forms a gas flow layer in front of the lens 12, when the rains drift in the direction of the lens 12, the sprayed gas flows blow raindrops, so that the smaller raindrops are prevented from falling onto the lens 12, and the monitoring definition of the camera is guaranteed to a certain extent under the condition of the rains;

and through setting up cooling tank 21 on camera body 11, be full of cooling water in cooling tank 21 inside, and when camera body 11 is when using, when the inside use of camera body 11 is carrying out the long-time heating up, because water has better heat absorption, so the inside water of cooling tank 21 can cool down to a certain extent inside camera body 11, and then has improved the availability factor of camera body 11.

Example 2:

as shown in fig. 1-9; the camera body 11 is provided with a rain sensor 18, a water inlet 24 is arranged at the opening of the cooling tank 21 and is provided with an inductive switch 25, the inductive switch 25 is connected through the rain sensor 18, one end of the water inlet 24 far away from the camera body 11 is provided with a conical funnel 26, a filter layer 27 is arranged in the conical funnel 26, and a filter screen 28 is detachably connected to the upper end of the filter layer 27;

and the filter screen 28 is made of stainless steel;

by providing the water inlet 24 on the camera body 11, when the cooling water in the camera body 11 is reduced after long-time use, people can supplement the cooling water to the cooling tank 21 through the water inlet 24; the induction switch 25 is arranged on the water inlet 24 and connected with the rainwater sensor 18 through the induction switch 25, the conical funnel 26 is arranged at one end, far away from the camera body 11, of the water inlet 24, the filter layer 27 is arranged inside the conical funnel 26, the filter layer 27 can be sand or activated carbon, when cooling water inside the cooling tank 21 needs to be replenished, and when the cooling water on the camera is in rainy season, the induction switch 25 is turned on when the rainwater sensor 18 on the camera monitors rainy, when the rainwater is raining the camera, rainy drops enter the conical funnel 26 on the camera body 11, after the rainwater enters the conical funnel 26, the rainwater is filtered through the filter layer 27, and clean cooling water enters the cooling tank 21;

it should be noted that, the area with more rainwater is suitable for the situation, and the funnel is smaller, but the long-time rainfall is enough to supplement the cooling water in the cooling tank 21; and by providing a screen 28 above the filter layer 27, on the one hand; when the camera moves, the filter screen 28 can prevent the filter layer 27 from falling, and on the other hand, the filter screen 28 can filter larger impurities; and the stainless steel material of the filter screen 28 has better corrosion resistance, so that the service life of the filter screen 28 is prolonged to a certain extent.

Example 3:

as shown in fig. 1-9; the annular sealing block 22 is rotationally connected with the cooling groove 21, and one end of the annular sealing block 22, which is close to the ventilator 17, is fixedly connected with a threaded ring 29, and the threaded ring 29 is in threaded connection with one end of the cooling groove 21, which is close to the ventilator 17; the screw ring 29 is provided with a right-angle connecting rod 291, one end of the right-angle connecting rod 291, which is close to the ventilator 17, is provided with a bar groove 292, a sliding rod 293 is connected in the bar groove 292 in a sliding way, an electric telescopic rod 294 is fixedly connected in the bar groove 292, the electric telescopic rod 294 is used for realizing the movement of the sliding rod 293, the electric telescopic rod 294 is connected with the sliding rod 293 in a sliding way, and when the sliding rod 293 approaches the middle part of the ventilator 17, the sliding rod 293 contacts with the sliding rod 293 when the ventilator 17 rotates; the annular baffle plate 23 is uniformly provided with water outlets 295; valves are uniformly arranged in the water outlet 295;

rectangular grooves 171 are uniformly formed in the fan blades of the ventilator 17, and after the slide bar 293 contacts the ventilator 17, the slide bar 293 enters the rectangular grooves 171;

the annular piece 14 is rotatably connected to the camera body 11, an arc-shaped groove 141 is formed in the annular piece 14, and the water outlet 295 is closed in an initial state of the arc-shaped groove 141; the camera body 11 is provided with an annular chute 142, the diameter of the chute 142 is smaller than that of the cooling groove 21, a sliding block 143 is connected inside the chute 142 in a sliding manner, the sliding block 143 is hinged with a cleaning rod 144 through a rotating shaft sleeved with a torsion spring, the rotating angle of the cleaning rod 144 is 90 degrees, the annular piece 14 is provided with a placing groove 145, and the placing groove 145 corresponds to the chute 142;

by rotationally connecting the annular seal block 22 with the cooling tank 21, and fixedly connecting the screw ring 29 to the annular seal, and screw-connecting the screw ring 29 with the cooling tank 21, and providing the right-angle link 291 on the screw ring 29, and sliding the slide rod 293 through the bar-shaped groove 292 on the right-angle link 291, and providing the electric telescopic rod 294 on the slide rod 293 side, the slide rod 293 is not in contact with the ventilator 17 in the initial state; when the camera works, if a user looks over the mobile phone to monitor in real time, the user finds that the definition of the camera body 11 is reduced, at this time, the user can control the camera body 11 through the mobile phone, at this time, the electric telescopic rod 294 moves, the electric telescopic rod 294 pushes the slide rod 293 to slide towards the direction of the ventilator 17, then the ventilator 17 slowly rotates, when the ventilator 17 rotates, the slide rod 293 contacts with the slide rod 293, at this time, the slide rod 293 enters the rectangular groove 171 on the ventilator 17, and the ventilator 17 rotates along with the slide rod 293, the slide rod 293 drives the right-angle connecting rod 291 to rotate, when the right-angle connecting rod 291 rotates, the right-angle connecting rod 291 drives the threaded ring 29 to rotate, when the threaded ring 29 rotates, the threaded ring 29 is in threaded connection with the inner wall of the cooling groove 21, so that the threaded ring 29 slides in the cooling groove 21, when the threaded ring 29 slides, the threaded ring 29 drives the annular sealing block 22 to slide in the cooling groove 21, when the annular sealing block 22 slides, the annular sealing block 22 extrudes cooling water in the cooling groove 21, and when the annular sealing block 23 does not flow out of the valve 295 from the annular valve, and does not flow out of the annular block 295, and the valve is not extruded from the inside the valve cap 295, and the valve is not extruded in the annular block is in the valve, and the valve is not extruded inside the valve is not extruded;

when cooling water flows out of the water outlet 295, water flows onto the lens 12, then a user rotates the annular member 14 (the annular member 14 is rotated by a motor outside the camera), in an initial state, the cleaning rod 144 is positioned in the placing groove 145, when the annular member 14 rotates clockwise, the cleaning rod 144 and the sliding block 143 slide in the placing groove 145 until the cleaning rod 144 slides to the arc groove 141 on the annular member 14, the placing groove 145 on the annular member 14 does not squeeze the cleaning rod 144, the cleaning rod 144 pops out of the arc groove 141 anticlockwise, at the moment, the cleaning rod 144 cannot rotate continuously with the annular member 14, at the moment, the cleaning rod 144 can be pushed by the annular member 14 to push the cleaning rod 144 to rotate in the chute 142 when the annular member 14 rotates continuously, and when the annular member 14 rotates, the arc groove 141 on the annular member 14 can be staggered with the water outlet 295 on the annular baffle 23, the water outlet 295 cannot flow out, at the moment, the cleaning rod 144 rotates clockwise, the cleaning rod 144 can be pushed by the cleaning rod 144 when the cleaning rod 144 rotates clockwise, and the cleaning rod 144 rotates anticlockwise when the cleaning rod 144 rotates clockwise, and the cleaning rod 144 rotates in the arc groove 142 when the annular member is pushed by the cleaning rod 144, and the cleaning rod 144 rotates clockwise; then the ventilator 17 is reversely rotated to separate the slide rod 293 from the ventilator 17, and then the electric telescopic rod 294 pulls the slide rod 293 to enable the ventilator 17 not to contact with the slide rod 293 when the ventilator 17 is rotated, and the ventilator 17 is rotated, so that the gas passes through the annular groove 16 and the communication groove 15 to dry the lens 12; if the electric telescopic rod 294 does not drive the slide rod 293 to pull back, the air exchange fan 17 is used for reversing, the air exchange fan 17 drives the slide rod 293 and the right-angle connecting rod 291 to reverse, and the threaded ring 29 is used for reversing, so that the annular sealing block 22 rotates in a direction away from the annular baffle plate 23, and water can be supplemented into the cooling tank 21 through the water inlet 24, and the water supplementing method is as described in the second embodiment.

Example IV

As shown in fig. 1-10; an intelligent home automatic control management system comprises an information control module, an image acquisition module, a sound acquisition module and a wireless information transmission module;

the information control module is arranged in the camera and is used for analyzing and distributing the information acquired by the camera;

the image acquisition module is connected with the information control module through an electric signal;

the sound collection module is arranged inside the camera, the sound collection module comprises an audio receiver 3, the audio receiver 3 is positioned on the side face of the camera, the audio receiver 3 is electrically connected with the information control module, and the audio receiver 3 is used for receiving surrounding sounds;

the wireless information transmission module is in electrical signal connection with the information transmission module and is connected with the mobile phone end through an Internet signal;

the system comprises an information control module, an image acquisition module, a sound acquisition module and a wireless information transmission module; when the camera is used indoors, abnormal sound appears in the resident family under the unmanned condition, at the moment, the audio receiver 3 in the sound acquisition module can receive the signal source and then position the signal source, after the positioning is finished, the image acquisition module can acquire the image of the signal source generation position, the acquired information can be transmitted to the information control module, the acquired information can be transmitted to the resident mobile phone through the wireless information transmission module, the image result is classified through the information control module, different warnings are generated on the user mobile phone, and the indoor safety of the resident is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention; it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims; the scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. An intelligent home automatic control management system; the system comprises a monitoring device, wherein the monitoring device comprises a home camera, and the camera comprises a cradle head (1), a camera body (11), a lens (12) and an air inlet (13); the camera body (11) can rotate on the cradle head (1); the lens (12) is arranged on the camera body (11); the air inlet (13) is arranged at one end of the camera body (11) far away from the lens (12); the method is characterized in that: comprises the following steps of;

the camera comprises a camera body (11), and is characterized by comprising an annular piece (14), wherein the annular piece (14) is arranged on the camera body (11), the annular middle part of the annular piece (14) is in a round table shape, communication grooves (15) are uniformly formed in the side face of the annular piece (14), and one side of the communication groove (15) positioned on the inner wall of the annular piece (14) is inclined towards the middle part of the annular piece (14);

the annular groove (16) is formed in the inner wall of the camera body (11), and the annular groove (16) is communicated with the communication groove (15);

the ventilation fan (17) is arranged inside the camera body (11), and the ventilation fan (17) is used for realizing ventilation inside the camera body (11);

the cooling assembly (2) is arranged on the camera body (11), and the cooling assembly (2) is used for cooling the camera body (11);

the cooling assembly (2) comprises;

the cooling groove (21) is formed in the camera body (11), the maximum diameter of the cooling groove (21) is smaller than the minimum diameter of the annular groove (16), and the cooling groove (21) is communicated with the space where the ventilator (17) is located;

an annular sealing block (22), wherein the annular sealing block (22) is arranged at one end of the cooling groove (21) close to the ventilator (17);

the annular baffle plate (23) is fixedly connected to one end, close to the lens (12), of the cooling groove (21);

cooling water is filled between the annular sealing block (22) and the annular baffle plate (23);

the water inlet (24), water inlet (24) set up on camera body (11), just water inlet (24) with cooling tank (21) intercommunication, water inlet (24) are located annular sealing block (22) with between annular baffle (23), water inlet (24) are used for realizing filling water to cooling tank (21) inside.

2. The smart home automation management system as claimed in claim 1, wherein: be provided with rain sensor (18) on camera body (11), water inlet (24) are located the opening part of cooling bath (21) and are provided with inductive switch (25), just inductive switch (25) are connected through rain sensor (18), just the one end that camera body (11) was kept away from to water inlet (24) is provided with toper funnel (26), and toper funnel (26) inside sets up filter layer (27), and the upper end of filter layer (27) is connected with filter screen (28).

3. The smart home automation management system as claimed in claim 2, wherein: the filter screen (28) is made of stainless steel.

4. The smart home automation management system as claimed in claim 1, wherein: the annular sealing block (22) is rotationally connected with the cooling groove (21), one end, close to the ventilator (17), of the annular sealing block (22) is fixedly connected with a threaded ring (29), and the threaded ring (29) is in threaded connection with one end, close to the ventilator (17), of the cooling groove (21);

the screw ring (29) is provided with a right-angle connecting rod (291), one end of the right-angle connecting rod (291) close to the ventilator (17) is provided with a bar-shaped groove (292), and a sliding rod (293) is connected in the bar-shaped groove (292) in a sliding way;

an electric telescopic rod (294) is fixedly connected in the strip-shaped groove (292), the electric telescopic rod (294) is used for realizing the movement of the sliding rod (293), and when the sliding rod (293) approaches the middle part of the ventilator (17), the sliding rod (293) is contacted with the sliding rod (293) when the ventilator (17) rotates; the annular baffle plate (23) is uniformly provided with water outlets (295); and valves are uniformly arranged in the water outlet (295).

5. The smart home automation management system of claim 4, wherein: rectangular grooves (171) are uniformly formed in the fan blades of the ventilator (17), and after the sliding rod (293) is in contact with the ventilator (17), the sliding rod (293) enters the rectangular grooves (171).

6. The smart home automation management system as claimed in claim 1, wherein: the annular piece (14) is rotationally connected to the camera body (11), an arc-shaped groove (141) is formed in the annular piece (14), and the water outlet (295) is sealed in an initial state of the arc-shaped groove (141);

annular chute (142) have been seted up on camera body (11), just the diameter of chute (142) is less than the diameter of cooling bath (21), just there is slider (143) inside through sliding connection in chute (142), just articulated through the pivot that the cover was equipped with the torsional spring on slider (143) have cleaning rod (144), the rotation angle of cleaning rod (144) is 90, standing groove (145) have been seted up to ring (14), just standing groove (145) with chute (142) correspond.

7. The smart home automation management system as claimed in claim 1, wherein: the system comprises an information control module, an image acquisition module, a sound acquisition module and a wireless information transmission module;

the information control module is arranged in the camera and is used for analyzing information acquired by the camera;

the image acquisition module is connected with the information control module through an electric signal;

the sound collection module is arranged inside the camera and comprises an audio receiver (3), the audio receiver (3) is positioned on the side face of the camera, the audio receiver (3) is electrically connected with the information control module, and the audio receiver (3) is used for receiving surrounding sounds;

the wireless information transmission module is in electric signal connection with the information transmission module, and is connected with the mobile phone end through internet signals.