1. An artificial intelligence monitoring device comprises a house roof, a camera and a mounting box, and is characterized in that the mounting box is arranged at the house roof, the camera is arranged in the mounting box through an adjusting structure, a camera protection structure is arranged on the house roof and on one side of the camera, and an electric power storage structure is arranged in the mounting box;

a detection structure and a fire extinguishing structure are arranged on the roof of the house and around the camera;

the regulating structure comprises: the device comprises a lifting motor, a lifting frame, an adjusting motor, an adjusting driving wheel, an adjusting driven wheel, a protective box, an n-type adjusting frame and a rotating motor;

the lifting motor is arranged in the mounting box, the telescopic end of the lifting motor faces downwards, the lifting frame is connected with the telescopic end of the lifting motor, the rotating motor is arranged at the bottom of the lifting frame, the driving end of the rotating motor is connected with the n-type adjusting frame, the adjusting motor is positioned outside the n-type adjusting frame, the driving end of the adjusting motor is connected with the adjusting driving wheel, the adjusting driven wheel is inserted in the n-type adjusting frame through a shaft body, the shaft body is provided with a connecting frame, the connecting frame is used for connecting the camera, and the adjusting driving wheel is meshed with the adjusting driven wheel;

the camera protection architecture includes: the device comprises a pair of slide rails, a pair of slide bodies, two threaded rods, two nuts, a pair of moving seats, a pair of driving motors and a pair of fire-resistant glass covers;

the pair of sliding rails are laid on the roof of the house and located on two sides of the camera, the pair of sliding bodies are movably mounted on the pair of sliding rails, the two threaded rods are arranged on one sides of the pair of sliding rails through the frame body, the nuts are movably mounted on the threaded rods, the pair of sliding bodies are laid on the pair of sliding rails, the nuts are connected with the sliding bodies through the connecting pieces, the pair of moving seats are arranged on the pair of sliding bodies, and the pair of fire-resistant glass covers are movably mounted on the pair of moving seats;

the inner parts of the pair of fire-resistant glass covers are of cavity structures and are provided with openings, and the pair of fire-resistant glass covers can cover the adjusting structure part.

2. The artificial intelligence monitoring device of claim 1, wherein the detection structure comprises: a smoke sensor, a light sensor, a heat sensor and a processor;

the smoke sensor, the light sensor and the heat sensor are all arranged on the roof of the house and electrically connected with the processor.

3. The artificial intelligence monitoring device of claim 1, wherein the fire extinguishing structure is composed of four fire extinguishing components with the same structure, and is distributed on the roof of the house at equal angles;

one of the fire suppression assemblies comprises: the device comprises a bogie, a steering shaft, a steering motor, a connecting disc, a plurality of high-pressure nozzles, a fixed frame, a movable shaft, a synchronous beam, a motor mounting piece and a pulling rod;

the bogie is arranged on the roof of a house, the steering motor is positioned on the outer wall of the bogie, the steering shaft is connected with the driving end of the steering motor, the connecting disc is connected with the steering shaft, the fixing frame is positioned at the bottom of the connecting disc, the movable shafts are inserted into the fixing frame, the connecting body connects the bottoms of the high-pressure nozzles with the movable shafts, the motor mounting piece is specified at the upper end part of the fixing frame, the telescopic motor is positioned on the motor mounting piece, the synchronous beam connects the upper end parts of the high-pressure nozzles, and the telescopic motor is connected with the synchronous beam through the pulling rod;

the connecting legs of the synchronous beam and the connecting parts of the high-pressure nozzles form included angles of 100-120 degrees.

4. The artificial intelligence monitoring device of claim 1, wherein the electrical storage structure comprises: the device comprises a battery compartment, a storage battery electric quantity indicator lamp, a storage battery pop-up structure, a power supply butt joint structure and a storage battery lifting structure;

the battery compartment is located mounting box one side to with mounting box integrated into one piece, the battery is located inside the battery compartment, and the battery communicates with power supply butt joint structure, battery pop-up structure and battery elevation structure are located the battery compartment.

5. The artificial intelligence monitoring device of claim 1, wherein the power docking structure comprises: a power supply port, a transformer, a battery insertion port and a battery mounting box;

the power supply port is communicated with the transformer, the transformer is communicated with the electric part through a connecting wire, the battery insertion port and the battery mounting box are integrally formed, and the battery is located inside the battery mounting box.

6. The artificial intelligence monitoring device of claim 5, wherein the battery ejection structure comprises: the device comprises a shielding cover, a guide rail, a linear module translation table, a bearing plate, a first electromagnet and a pair of suction pieces;

the shielding cover is connected with the outside of the battery mounting box, the guide rail and the linear module translation platform are both laid at the bottom of the battery cabin, the bearing plate is connected with the moving end of the linear module translation platform, the electromagnet is positioned on the bearing plate, and the pair of attraction pieces are positioned at the upper end part and the lower end part of the battery mounting box.

7. The artificial intelligence monitoring device of claim 1, wherein the battery lifting structure comprises: the device comprises a propelling motor, a descending plate and a second electromagnet;

the pushing motor is positioned at the upper end of the roof of the house, the descending plate is connected with the driving end of the pushing motor, the second electromagnet is arranged on the descending plate, and the second electromagnet can be attracted with the attraction piece.

8. An artificial intelligence monitoring device according to claim 7 wherein the propulsion motor is secured to the end of the roof of the building.

9. The artificial intelligence monitoring device of claim 6 wherein the linear module translation stage is coupled to the battery compartment.

Background

The application range of monitoring is wider, the monitoring technical means are various, most of the means are focused on analog modes such as infrared, smoke and temperature sensing monitoring, and the means can only generate simple acousto-optic alarms on site. The system also comprises an analog audio and video monitoring device, the monitoring means needs complex wiring, and has various equipment types, high overall cost, incapability of realizing any point-to-point audio and video communication and lack of an intelligent monitoring mechanism;

the existing monitoring equipment is mainly operated manually and does not have the functions of angle change and the like, so that the functions are single, the transmitted monitoring equipment is exposed outside, if a fire disaster and the like happen in a scene, a camera shooting picture is damaged, the internal situation cannot be known, and the danger of fire extinguishers is increased;

this technical scheme will design one kind when taking place to the conflagration, put out a fire around the automatic start to adopt independent power supply and stand-by power supply's mode, thereby the protection control picture, the manual work of being convenient for is put out a fire.

Disclosure of Invention

The invention aims to solve the problems and designs artificial intelligence monitoring equipment.

The technical scheme of the invention is that the artificial intelligent monitoring equipment comprises a house roof, a camera and a mounting box, wherein the mounting box is arranged at the house roof, the camera is arranged in the mounting box through an adjusting structure, a camera protection structure is arranged on one side of the camera on the house roof, and an electric power storage structure is arranged in the mounting box;

a detection structure and a fire extinguishing structure are arranged on the roof of the house and around the camera;

the regulating structure comprises: the device comprises a lifting motor, a lifting frame, an adjusting motor, an adjusting driving wheel, an adjusting driven wheel, a protective box, an n-type adjusting frame and a rotating motor;

the lifting motor is arranged in the mounting box, the telescopic end of the lifting motor faces downwards, the lifting frame is connected with the telescopic end of the lifting motor, the rotating motor is arranged at the bottom of the lifting frame, the driving end of the rotating motor is connected with the n-type adjusting frame, the adjusting motor is positioned outside the n-type adjusting frame, the driving end of the adjusting motor is connected with the adjusting driving wheel, the adjusting driven wheel is inserted in the n-type adjusting frame through a shaft body, the shaft body is provided with a connecting frame, the connecting frame is used for connecting the camera, and the adjusting driving wheel is meshed with the adjusting driven wheel;

the camera protection architecture includes: the device comprises a pair of slide rails, a pair of slide bodies, two threaded rods, two nuts, a pair of moving seats, a pair of driving motors and a pair of fire-resistant glass covers;

the pair of sliding rails are laid on the roof of the house and located on two sides of the camera, the pair of sliding bodies are movably mounted on the pair of sliding rails, the two threaded rods are arranged on one sides of the pair of sliding rails through the frame body, the nuts are movably mounted on the threaded rods, the pair of sliding bodies are laid on the pair of sliding rails, the nuts are connected with the sliding bodies through the connecting pieces, the pair of moving seats are arranged on the pair of sliding bodies, and the pair of fire-resistant glass covers are movably mounted on the pair of moving seats;

the inner parts of the pair of fire-resistant glass covers are of cavity structures and are provided with openings, and the pair of fire-resistant glass covers can cover the adjusting structure part.

Preferably, the detection structure comprises: a smoke sensor, a light sensor, a heat sensor and a processor;

the smoke sensor, the light sensor and the heat sensor are all arranged on the roof of the house and electrically connected with the processor.

Preferably, the fire extinguishing structure consists of four fire extinguishing assemblies with the same structure, and the fire extinguishing assemblies are distributed on the roof of the house at equal angles;

one of the fire suppression assemblies comprises: the device comprises a bogie, a steering shaft, a steering motor, a connecting disc, a plurality of high-pressure nozzles, a fixed frame, a movable shaft, a synchronous beam, a motor mounting piece and a pulling rod;

the bogie is arranged on the roof of a house, the steering motor is positioned on the outer wall of the bogie, the steering shaft is connected with the driving end of the steering motor, the connecting disc is connected with the steering shaft, the fixing frame is positioned at the bottom of the connecting disc, the movable shafts are inserted into the fixing frame, the connecting body connects the bottoms of the high-pressure nozzles with the movable shafts, the motor mounting piece is specified at the upper end part of the fixing frame, the telescopic motor is positioned on the motor mounting piece, the synchronous beam connects the upper end parts of the high-pressure nozzles, and the telescopic motor is connected with the synchronous beam through the pulling rod;

the connecting legs of the synchronous beam and the connecting parts of the high-pressure nozzles form included angles of 100-120 degrees.

Preferably, the electricity storage structure includes: the device comprises a battery compartment, a storage battery electric quantity indicator lamp, a storage battery pop-up structure, a power supply butt joint structure and a storage battery lifting structure;

the battery compartment is located mounting box one side to with mounting box integrated into one piece, the battery is located inside the battery compartment, and the battery communicates with power supply butt joint structure, battery pop-up structure and battery elevation structure are located the battery compartment.

Preferably, the power supply docking structure includes: a power supply port, a transformer, a battery insertion port and a battery mounting box;

the power supply port is communicated with the transformer, the transformer is communicated with the electric part through a connecting wire, the battery insertion port and the battery mounting box are integrally formed, and the battery is located inside the battery mounting box.

Preferably, the battery ejection structure includes: the device comprises a shielding cover, a guide rail, a linear module translation table, a bearing plate, a first electromagnet and a pair of suction pieces;

the shielding cover is connected with the outside of the battery mounting box, the guide rail and the linear module translation platform are both laid at the bottom of the battery cabin, the bearing plate is connected with the moving end of the linear module translation platform, the electromagnet is positioned on the bearing plate, and the pair of attraction pieces are positioned at the upper end part and the lower end part of the battery mounting box.

Preferably, the battery lifting structure includes: the device comprises a propelling motor, a descending plate and a second electromagnet;

the pushing motor is positioned at the upper end of the roof of the house, the descending plate is connected with the driving end of the pushing motor, the second electromagnet is arranged on the descending plate, and the second electromagnet can be attracted with the attraction piece.

Preferably, the propulsion motor is fastened to the end of the roof of the house.

Preferably, the linear module translation table is connected with the battery bin.

According to the artificial intelligent monitoring equipment manufactured by the technical scheme, the camera is automatically protected after smoke is detected, the camera can be remotely controlled to shoot at a multi-azimuth angle, meanwhile, a fire extinguishing system is used for extinguishing a nearby fire source, the occurrence of fire is effectively reduced, and meanwhile, fire extinguishers can be helped to control the fire more quickly.

Drawings

FIG. 1 is a schematic diagram of a side view of a portion of an artificial intelligence monitoring device according to the present invention;

FIG. 2 is a schematic diagram of a side view of an artificial intelligence monitoring device according to the present invention;

FIG. 3 is a schematic diagram of a partial structure of a power supply docking structure of an artificial intelligence monitoring device according to the present invention;

FIG. 4 is a schematic diagram of a partial structure of a power supply docking structure of an artificial intelligence monitoring device according to the present invention;

FIG. 5 is a schematic diagram of a fire extinguishing structure of an artificial intelligence monitoring device according to the present invention;

FIG. 6 is a schematic structural diagram of an adjustment structure of an artificial intelligence monitoring device according to the present invention;

FIG. 7 is a schematic view of the construction of the refractory glass cover according to the invention;

FIG. 8 is a schematic diagram of a fire extinguishing structure of an artificial intelligence monitoring device according to the present invention;

in the figure, 1, a house roof; 2. a camera; 3. mounting a box; 4. a lifting motor; 5. adjusting the motor; 6. adjusting the driving wheel; 7. adjusting the driven wheel; 8. a protective case; 9. an n-type adjusting bracket; 10. a rotating electric machine; 11. a slide rail; 12. a slider; 13. a threaded rod; 14. a nut; 15. a movable seat; 16. a drive motor; 17. a refractory glass cover; 18. a smoke sensor; 19. a light sensor; 20. a thermal sensor; 21. a processor; 22. a bogie; 23. a steering shaft; 24. a steering motor; 25. a connecting disc; 26. a high pressure nozzle; 27. a fixed mount; 28. a movable shaft; 29. a synchronization beam; 30. a motor mount; 31. a pulling rod; 32. a battery compartment; 33. a storage battery; 34. a battery power indicator; 35. a power supply port; 36. a transformer; 37. a battery insertion port; 38. a battery mounting box; 39. a shielding cover; 40. a guide rail; 41. a linear module translation stage; 42. a carrier plate; 43. a first electromagnet; 44. a suction sheet; 45. a propulsion motor; 46. a dropping plate; 47. a second electromagnet; 48. a fastening frame; 49. a telescopic motor.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, which illustrate an artificial intelligence monitoring apparatus, as shown in fig. 1-8.

An artificial intelligence monitoring device comprises a house roof 1, a camera 2 and a mounting box 3, wherein the mounting box 3 is arranged at the house roof 1, the camera 2 is arranged in the mounting box 3 through an adjusting structure, a camera 2 protecting structure is arranged on the house roof 1 and positioned on one side of the camera 2, and an electric power storage structure is arranged in the mounting box 3;

in the above, the electric power is supplied to the electric components such as the camera 2 through the electric power storage structure, and the camera 2 is protected by the camera 2 protection structure when a fire occurs;

a detection structure and a fire extinguishing structure are arranged on the house roof 1 and around the camera 2;

after the detection structure finds the fire, the fire extinguishing structure is used for realizing the surrounding fire extinguishing, and the camera 2 is used for monitoring the surrounding situation;

it should be noted that the technical solution is further provided with a wireless signal transmitter, a wireless signal receiver, an image transmitter, a controller, a memory, and a mobile terminal (e.g., a tablet computer, a computer, etc.), and the technical features are mainly used for transmitting the picture shot by the camera 2 and performing remote control on other electrical components.

Specifically, the adjusting structure comprises: the device comprises a lifting motor 4, a lifting frame, an adjusting motor 5, an adjusting driving wheel 6, an adjusting driven wheel 7, a protective box 8, an n-shaped adjusting frame 9 and a rotating motor 10;

the lifting motor 4 is arranged in the mounting box 3, the telescopic end of the lifting motor is downward, the lifting frame is connected with the telescopic end of the lifting motor 4, the rotating motor 10 is arranged at the bottom of the lifting frame, the driving end of the rotating motor 10 is connected with the n-type adjusting frame 9, the adjusting motor 5 is arranged outside the n-type adjusting frame 9, the driving end of the adjusting motor is connected with the adjusting driving wheel 6, the adjusting driven wheel 7 is inserted in the n-type adjusting frame 9 through a shaft body, the shaft body is provided with a connecting frame, the connecting frame connects the camera 2, and the adjusting driving wheel 6 is meshed with the adjusting driven wheel 7;

it should be noted that, in the above, the lifting frame can be pushed to ascend or descend manually by the remote control lifting motor 4, the height of the camera 2 can be adjusted, and the angle can be adjusted by the rotating motor 10, after the adjusting driving wheel 6 is driven by the adjusting motor 5, the driving wheel is meshed with the driven wheel, the driven wheel drives the shaft body to rotate, the shaft body drives the camera 2 on the connecting frame to rotate, and then the adjustment of the picture shot by the camera 2 is realized;

specifically, the protection structure of the camera 2 includes: a pair of slide rails 11, a pair of slide bodies 12, two threaded rods 13, two nuts 14, a pair of moving seats 15, a pair of driving motors 16 and a pair of fire-resistant glass covers 17;

the pair of slide rails 11 are laid on the roof 1 of the house and located on two sides of the camera 2, the pair of sliding bodies 12 are movably mounted on the pair of slide rails 11, two threaded rods 13 are arranged on one sides of the pair of slide rails 11 through a frame body, nuts 14 are movably mounted on the threaded rods 13, the pair of sliding bodies 12 are laid on the pair of slide rails 11, the nuts 14 are connected with the sliding bodies 12 through connecting pieces, the pair of moving seats 15 are arranged on the pair of sliding bodies 12, and the pair of fire-resistant glass covers 17 are movably mounted on the pair of moving seats 15;

it should be noted that, after a fire occurs, the pair of driving motors 16 respectively drive the pair of screws, and then the pair of screws rotate, the nuts 14 on the screws drive the connected sliding bodies 12 to move on the sliding rails 11, the sliding bodies 12 are provided with moving seats 15, the moving seats 15 drive the fire-resistant glass covers 17 to move, and after the pair of fire-resistant glass covers 17 move relatively, the camera 2 is temporarily protected;

the pair of refractory glass covers 17 are of a hollow cavity structure and have openings, and the pair of refractory glass covers 17 can cover the adjusting structure part.

Specifically, the detection structure comprises: smoke sensor 18, light sensor 19, heat sensor 20 and processor 21;

the smoke sensor 18, the light sensor 19 and the heat sensor 20 are all arranged on the roof 1 of the house and are electrically connected with the processor 21.

The components are mainly used for detecting smoke and controlling the camera 2 and the fire extinguishing structure through the processor 21;

specifically, the fire extinguishing structure is composed of four fire extinguishing assemblies with the same structure, and the fire extinguishing assemblies are distributed on the roof 1 of the house at equal angles;

one of the fire suppression assemblies comprises: the device comprises a bogie 22, a steering shaft 23, a steering motor 24, a connecting disc 25, a plurality of high-pressure nozzles 26, a fixed frame 27, a movable shaft 28, a synchronous beam 29, a motor mounting piece 30 and a pulling rod 31;

the bogie 22 is arranged on the roof 1 of a house, the steering motor 24 is positioned on the outer wall of the bogie 22, the steering shaft 23 is connected with the driving end of the steering motor 24, the connecting disc 25 is connected with the steering shaft 23, the fixing frame 27 is positioned at the bottom of the connecting disc 25, the movable shafts 28 are inserted into the fixing frame 27, the connecting body connects the bottoms of the high-pressure nozzles 26 with the movable shafts 28, the motor mounting piece 30 is arranged at the upper end part of the fixing frame 27, the telescopic motor 49 is positioned on the motor mounting piece 30, the synchronous beam 29 connects the upper end parts of the high-pressure nozzles 26, and the telescopic motor 49 is connected with the synchronous beam 29 through the pulling rod 31;

the connecting legs of the synchronizing beam 29 and the connecting parts of the high-pressure nozzles 26 have included angles of 100 DEG and 120 deg.

It should be noted that, when fire extinguishing is required to be performed on a fire source, the steering motor 24 is controlled to drive the steering shaft 23, after the steering shaft 23 rotates, the steering shaft 23 can drive the connecting disc 25 to rotate, and the connecting disc 25 can drive the high-pressure nozzle to rotate and spray water;

meanwhile, the synchronous beam 29 can be pushed to descend by pulling the rod 31 through the telescopic motor 49, so that the synchronous beam 29 can drive the high-pressure nozzles 26 to act, and the angle can be adjusted, as shown in the figure specifically;

specifically, the electricity storage structure includes: the battery compartment 32, the storage battery 33, the electric quantity indicator lamp of the storage battery 33, the pop-up structure of the storage battery 33, the power supply butt joint structure and the lifting structure of the storage battery 33;

battery compartment 32 is located mounting box 3 one side to with mounting box 3 integrated into one piece, battery 33 is located inside battery compartment 32, and battery 33 communicates with the butt joint structure of supplying power, battery 33 pop-up structure and battery 33 elevation structure are located battery compartment 32.

It should be noted that, this technical scheme mainly sets up inside battery compartment 32 through battery 33, when needing to change or charge battery 33, can pop out battery compartment 32 through battery 33 pop-up structure to usable battery 33 elevation structure realizes the lift of battery 33, thereby the manual work operation of taking of being convenient for.

Specifically, the power supply docking structure includes: power supply port 35, transformer 36, battery insertion port 37, battery mounting case 383;

the power supply port 35 is communicated with the transformer 36, the transformer 36 is communicated with the electrical part through a connecting wire, the battery insertion port 37 and the battery mounting box 383 are integrally formed, and the battery is located inside the battery mounting box 383.

In the above, the circuit is connected through the power supply port 35, the transformer 36 is used for converting voltage, the battery insertion port 37 is used for connecting the terminal of the storage battery 33, the battery insertion port 37 can be communicated with the power supply port 35, and the power supply port 35 supplies power to all the components needing power supply in the technical scheme.

Specifically, the battery 33 pop-up structure includes: the device comprises a shielding cover 39, a guide rail 40, a linear module translation table 41, a bearing plate 42, a first electromagnet 43 and a pair of suction pieces 44;

7. the shielding cover 39 is externally connected with the battery mounting box 383, the guide rail 40 and the linear module translation table 41 are both laid at the bottom of the battery cabin 32, the bearing plate 42 is connected with the moving end of the linear module translation table 41, the electromagnet is located on the bearing plate 42, and the pair of suction pieces 44 are located at the upper end part and the lower end part of the battery mounting box 383.

8. It should be noted that, in the above, the bearing plate 42 with the storage battery 33 inside the battery mounting box 383 can be moved out of the battery compartment 32 by the driving of the linear module translation stage 41, and the size of the opening of the shielding cover 39 outside the battery compartment 32 is the same as that of the opening of the battery compartment 32, so that the shielding cover can be used for sealing the battery compartment 32;

9. the first electromagnet 43 and the attraction piece 44 are used for temporarily fixing the battery mounting box 383, and when the bearing plate 42 with the battery mounting box 383 leaves the battery compartment 32, the first electromagnet 43 is powered off;

specifically, the battery 33 lifting structure includes: a propulsion motor 45, a descending plate 46, a second electromagnet 47;

the pushing motor 45 is positioned at the upper end part of the house roof 1, the descending plate 46 is connected with the driving end of the pushing motor 45, the second electromagnet 47 is arranged on the descending plate 46, and the second electromagnet 47 can be attracted with the attraction piece 44. A

10. It should be noted that, after the bearing plate 42 with the battery mounting box 383 leaves the battery compartment 32, the first electromagnet 43 is powered off, the adhesion between the attraction piece 44 on the battery mounting box 383 and the first electromagnet 43 is lost, then the pushing motor 45 pushes the descending plate 46 to descend, the second electromagnet 47 on the descending plate 46 works, after the second electromagnet 47 works, the second electromagnet 47 is attracted with the attraction piece 44 on the battery mounting box 383, then the linear module translation table 41 moves the bearing plate 42 to one side, and the pushing motor 45 pushes the battery mounting box 383 below the descending plate 46 out of the house roof 1, so that manual replacement is facilitated.

Preferably, a fastening frame 48 is further provided between the propulsion motor 45 and the end of the roof 1 of the house.

Preferably, the linear module translation stage 41 is connected to the battery compartment 32.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.