1. An intelligent motor vehicle protection method based on a high-rise building is characterized by comprising the following steps:

s1, controlling a monitoring camera arranged in a community area to start to capture a monitoring image in real time and obtain weather information of a city in real time;

s2, analyzing whether rainfall occurs in the community area in real time according to the weather information and the monitoring image;

s3, if yes, controlling an ultrasonic sensor arranged at the top end position inside the underground garage of the community to start to acquire the height information of the accumulated water in the garage in real time, and analyzing whether the accumulated water in the underground garage exceeds the preset height in real time according to the height information of the accumulated water in the garage;

s4, identifying motor vehicle information in the underground garage in real time according to the monitoring image if the motor vehicle information exists, and binding the motor vehicles in the underground garage with the idle mobile protection platforms arranged in the underground garage respectively according to the motor vehicle information;

s5, controlling a mobile camera arranged at an external position of the mobile protection platform to start to capture a mobile image in real time, and controlling a moving mechanism arranged at a position below the mobile protection platform to move the mobile protection platform to a bound bottom position of the motor vehicle according to the mobile image;

s6, controlling a collision platform which is arranged at the upper end of the movable protection platform and is driven by a hydraulic mechanism to be connected with the bottom of the motor vehicle above the collision platform to rise, and controlling the movable protection platform to move to a position matched with a lifting track of a building according to the movable image;

and S7, controlling the moving mechanism to enable the lifting driving mechanism of the movable protection platform to correspond to the lifting track according to the monitoring image and the moving image, and controlling the movable protection platform which is connected with the lifting driving mechanism in a driving mode to ascend to the position outside the matched house at the position of the lifting track according to the monitoring image and the moving image.

2. The intelligent motor vehicle protection method based on high-rise buildings according to claim 1, wherein in S6, the method further comprises the following steps:

s60, extracting license plate information contained in the mobile image, and matching and identifying the residence information of the automobile owner according to the license plate information and the resident information stored in the community database;

and S61, controlling the moving mechanism to move the movable protection platform to the position of the lifting track outside the building matched with the living information according to the living information and the moving image.

3. The intelligent motor vehicle protection method based on high-rise buildings according to claim 2, wherein in S7, the method further comprises the following steps:

s70, extracting the floor and house information contained in the living information, and controlling the moving mechanism to correspondingly collide the lifting driving mechanism of the movable protection platform with the lifting track according to the monitoring image and the moving image;

s71, controlling the movable protection platform which is driven and connected by the lifting driving mechanism to ascend to the position outside the house matched with the information of the floor and the house at the position of the lifting track according to the monitoring image and the movable image and controlling the fixed groove at the position outside the house to be opened through an electric switch door;

and S72, controlling the fixed block which is arranged at the side position of the movable protection platform and is driven and connected by the fixed telescopic mechanism to stretch out to be abutted and fixed with the fixed groove.

4. The intelligent motor vehicle protection method based on high-rise buildings according to claim 1, characterized in that after S2, the method further comprises the following steps:

s20, controlling a laser sensor arranged at the outer side of the building to start to acquire the height information of the surface ponding in real time, and analyzing whether the height of the surface ponding exceeds a preset height in real time according to the height information of the surface ponding;

s21, if yes, controlling a moving mechanism arranged at the lower position of the moving protection platform to move the moving protection platform to the bottom position of the vacant motor vehicle according to the moving image and controlling a collision platform which is arranged at the upper end position of the moving protection platform and is in driving connection with a hydraulic mechanism to collide with the bottom of the motor vehicle above the collision platform to lift;

s22, controlling the moving mechanism to move the mobile protection platform to the position of the lifting track matched with the building according to the mobile image, and controlling the moving mechanism to enable the lifting driving mechanism of the mobile protection platform to correspond to the lifting track according to the monitoring image and the mobile image;

and S23, controlling the movable protection platform driven and connected by the lifting driving mechanism to ascend to the outer side of the matched house at the position of the lifting track according to the monitoring image and the moving image.

5. The intelligent vehicle protection method based on high-rise buildings according to claim 4, wherein after S7 and S22, the method further comprises the following steps:

s100, controlling a laser sensor arranged at the outer side of a building to start to acquire the height information of the surface ponding water in real time and analyzing whether the height of the surface ponding water exceeds a warning value in real time according to the height information of the surface ponding water;

and S101, if so, controlling the movable protection platform positioned below the middle part of the building to ascend to the top area of the building at the position of the lifting track through the lifting driving mechanism according to the monitoring image and the movable image.

6. An intelligent motor vehicle protection system based on a high-rise building, which uses the intelligent motor vehicle protection method based on the high-rise building of any one of claims 1 to 5, and comprises a motor vehicle protection device, a rail moving device and a server, and is characterized in that:

the motor vehicle protection device comprises monitoring cameras, an ultrasonic sensor, a movable protection platform, movable cameras, a moving mechanism, a hydraulic mechanism and a collision platform, wherein the monitoring cameras are distributed in a community area and used for environment images of the community area; the ultrasonic sensor is arranged at the top end position of the interior of an underground garage of the community and used for acquiring the height information of accumulated water in the underground garage; the mobile protection platform is placed at the position inside the underground garage and used for providing mobile operation for the motor vehicle; the mobile camera is arranged at the outer position of the mobile protection platform and is used for shooting an environmental image around the mobile protection platform; the moving mechanism is arranged at the position below the moving protection platform and used for driving the moving protection platform to move; the hydraulic mechanism is arranged above the movable protection platform, connected with the abutting platform and used for driving the connected abutting platform to stretch; the collision platform is arranged above the hydraulic mechanism and is used for colliding with the bottom of the motor vehicle after being extended out;

the rail moving device comprises a lifting driving mechanism, a lifting rail, a laser sensor, a fixing groove, an electric switch door, a fixing telescopic mechanism and a fixing block, wherein the lifting driving mechanism is arranged at the side position of the movable protection platform and used for driving the movable protection platform to move at the position of the lifting rail; the lifting tracks are distributed at the outer position of the building and used for providing a lifting driving mechanism for movement; the laser sensor is arranged at the position outside the building and used for acquiring the height information of the surface water of the area where the building is located; the fixing grooves are arranged at the outer positions of houses on all floors of the building and used for providing abutting and fixing of the fixing blocks; the electric switch door is arranged at the inlet and outlet positions of the fixing groove and used for opening and closing the fixing groove; the fixed telescopic mechanism is arranged at the inner position of the side of the movable protection platform, is connected with the fixed block and is used for driving the connected fixed block to stretch;

the server is arranged at the position of a community management department, and comprises:

the system comprises a monitoring camera, an ultrasonic sensor, a mobile protection platform, a mobile camera, a mobile mechanism, a hydraulic mechanism, a lifting driving mechanism, a laser sensor, an electric switch door, a fixed telescopic mechanism, a community management department, a community household terminal, an alarm center and an internet, wherein the monitoring camera, the ultrasonic sensor, the mobile protection platform, the mobile camera, the mobile mechanism, the hydraulic mechanism, the lifting driving mechanism, the laser sensor, the electric switch door, the fixed telescopic mechanism, the community management department, the community household terminal, the alarm center and the internet are connected with each other;

the monitoring shooting module is used for controlling the starting or closing of the monitoring camera;

the information acquisition module is used for acquiring the specified information;

the information analysis module is used for processing and analyzing the information according to the specified information;

the ultrasonic module is used for controlling the starting or the closing of the ultrasonic sensor;

the license plate recognition module is used for recognizing the license plate of the motor vehicle according to the specified information;

the information binding module is used for binding the specified object with another specified object;

the mobile shooting module is used for controlling the mobile camera to be started or closed;

the mobile control module is used for controlling the mobile mechanism to execute the set mobile operation of the mobile protection platform according to the set steps;

the hydraulic conflict module is used for controlling the hydraulic mechanism to execute the set conflict platform telescopic operation according to the set steps;

and the lifting control module is used for controlling the lifting driving mechanism to execute the set moving operation of the lifting track of the movable protection platform according to the set steps.

7. The intelligent vehicle protection system based on high-rise buildings according to claim 6, wherein the server further comprises:

the information extraction module is used for extracting the information contained in the specified information;

and the information matching module is used for matching the designated information with the resident information in the community database.

8. The intelligent vehicle protection system based on high-rise buildings according to claim 6, wherein the server further comprises:

the fixed switch module is used for controlling the opening or closing of the electric switch door;

and the fixed telescopic module is used for controlling the fixed telescopic mechanism to execute the set fixed block telescopic operation according to the set steps.

9. The intelligent vehicle protection system based on high-rise buildings according to claim 6, wherein the server further comprises:

and the laser identification module is used for controlling the laser sensor to be started or closed.

Background

Urban inland inundation is relatively common and mainly occurs in some regions with relatively low coastal topography, and inland cities also frequently occur. In the past, the urban construction land is small in area, the selectable area is large, and the region with higher terrain is generally selected for construction, but the urban land is quite tense at present, and the selectable space is few. The occurrence of certain specific locations of a city, such as cells, is high. With the construction of modern cities, many new problems also arise in drainage and inland inundation. Particularly, deep water accumulation is easily generated in low-lying places of certain roads and underground garages, so that a plurality of automobiles are submerged, and according to statistics, more than 1 ten thousand vehicles are submerged every year in the country, so that great economic loss is caused.

Therefore, how to combine community waterlogging with motor vehicle protection for after rainfall weather is detected, when the community region waterlogging occurs, the motor vehicle is transported to the matched building lifting track area by using the mobile protection platform, and then the motor vehicle is transported to the side area of the matched floor by using the lifting track, so as to prevent the motor vehicle from being submerged by accumulated water and reduce the loss of the submerged motor vehicle, which is a problem that needs to be solved urgently at present.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides an intelligent motor vehicle protection method and system based on a high-rise building, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent motor vehicle protection method based on a high-rise building comprises the following steps:

s1, controlling a monitoring camera arranged in a community area to start to capture a monitoring image in real time and obtain weather information of a city in real time;

s2, analyzing whether rainfall occurs in the community area in real time according to the weather information and the monitoring image;

s3, if yes, controlling an ultrasonic sensor arranged at the top end position inside the underground garage of the community to start to acquire the height information of the accumulated water in the garage in real time, and analyzing whether the accumulated water in the underground garage exceeds the preset height in real time according to the height information of the accumulated water in the garage;

s4, identifying motor vehicle information in the underground garage in real time according to the monitoring image if the motor vehicle information exists, and binding the motor vehicles in the underground garage with the idle mobile protection platforms arranged in the underground garage respectively according to the motor vehicle information;

s5, controlling a mobile camera arranged at an external position of the mobile protection platform to start to capture a mobile image in real time, and controlling a moving mechanism arranged at a position below the mobile protection platform to move the mobile protection platform to a bound bottom position of the motor vehicle according to the mobile image;

s6, controlling a collision platform which is arranged at the upper end of the movable protection platform and is driven by a hydraulic mechanism to be connected with the bottom of the motor vehicle above the collision platform to rise, and controlling the movable protection platform to move to a position matched with a lifting track of a building according to the movable image;

and S7, controlling the moving mechanism to enable the lifting driving mechanism of the movable protection platform to correspond to the lifting track according to the monitoring image and the moving image, and controlling the movable protection platform which is connected with the lifting driving mechanism in a driving mode to ascend to the position outside the matched house at the position of the lifting track according to the monitoring image and the moving image.

As a preferable mode of the present invention, in S6, the method further includes the steps of:

s60, extracting license plate information contained in the mobile image, and matching and identifying the residence information of the automobile owner according to the license plate information and the resident information stored in the community database;

and S61, controlling the moving mechanism to move the movable protection platform to the position of the lifting track outside the building matched with the living information according to the living information and the moving image.

As a preferable mode of the present invention, in S7, the method further includes the steps of:

s70, extracting the floor and house information contained in the living information, and controlling the moving mechanism to correspondingly collide the lifting driving mechanism of the movable protection platform with the lifting track according to the monitoring image and the moving image;

s71, controlling the movable protection platform which is driven and connected by the lifting driving mechanism to ascend to the position outside the house matched with the information of the floor and the house at the position of the lifting track according to the monitoring image and the movable image and controlling the fixed groove at the position outside the house to be opened through an electric switch door;

and S72, controlling the fixed block which is arranged at the side position of the movable protection platform and is driven and connected by the fixed telescopic mechanism to stretch out to be abutted and fixed with the fixed groove.

As a preferred mode of the present invention, after S2, the method further includes the steps of:

s20, controlling a laser sensor arranged at the outer side of the building to start to acquire the height information of the surface ponding in real time, and analyzing whether the height of the surface ponding exceeds a preset height in real time according to the height information of the surface ponding;

s21, if yes, controlling a moving mechanism arranged at the lower position of the moving protection platform to move the moving protection platform to the bottom position of the vacant motor vehicle according to the moving image and controlling a collision platform which is arranged at the upper end position of the moving protection platform and is in driving connection with a hydraulic mechanism to collide with the bottom of the motor vehicle above the collision platform to lift;

s22, controlling the moving mechanism to move the mobile protection platform to the position of the lifting track matched with the building according to the mobile image, and controlling the moving mechanism to enable the lifting driving mechanism of the mobile protection platform to correspond to the lifting track according to the monitoring image and the mobile image;

and S23, controlling the movable protection platform driven and connected by the lifting driving mechanism to ascend to the outer side of the matched house at the position of the lifting track according to the monitoring image and the moving image.

As a preferred aspect of the present invention, after S7 and S22, the method further comprises the steps of:

s100, controlling a laser sensor arranged at the outer side of a building to start to acquire the height information of the surface ponding water in real time and analyzing whether the height of the surface ponding water exceeds a warning value in real time according to the height information of the surface ponding water;

and S101, if so, controlling the movable protection platform positioned below the middle part of the building to ascend to the top area of the building at the position of the lifting track through the lifting driving mechanism according to the monitoring image and the movable image.

An intelligent motor vehicle protection system based on a high-rise building uses an intelligent motor vehicle protection method based on the high-rise building, and comprises a motor vehicle protection device, a rail moving device and a server;

the motor vehicle protection device comprises monitoring cameras, an ultrasonic sensor, a movable protection platform, movable cameras, a moving mechanism, a hydraulic mechanism and a collision platform, wherein the monitoring cameras are distributed in a community area and used for environment images of the community area; the ultrasonic sensor is arranged at the top end position of the interior of an underground garage of the community and used for acquiring the height information of accumulated water in the underground garage; the mobile protection platform is placed at the position inside the underground garage and used for providing mobile operation for the motor vehicle; the mobile camera is arranged at the outer position of the mobile protection platform and is used for shooting an environmental image around the mobile protection platform; the moving mechanism is arranged at the position below the moving protection platform and used for driving the moving protection platform to move; the hydraulic mechanism is arranged above the movable protection platform, connected with the abutting platform and used for driving the connected abutting platform to stretch; the collision platform is arranged above the hydraulic mechanism and is used for colliding with the bottom of the motor vehicle after being extended out;

the rail moving device comprises a lifting driving mechanism, a lifting rail, a laser sensor, a fixing groove, an electric switch door, a fixing telescopic mechanism and a fixing block, wherein the lifting driving mechanism is arranged at the side position of the movable protection platform and used for driving the movable protection platform to move at the position of the lifting rail; the lifting tracks are distributed at the outer position of the building and used for providing a lifting driving mechanism for movement; the laser sensor is arranged at the position outside the building and used for acquiring the height information of the surface water of the area where the building is located; the fixing grooves are arranged at the outer positions of houses on all floors of the building and used for providing abutting and fixing of the fixing blocks; the electric switch door is arranged at the inlet and outlet positions of the fixing groove and used for opening and closing the fixing groove; the fixed telescopic mechanism is arranged at the inner position of the side of the movable protection platform, is connected with the fixed block and is used for driving the connected fixed block to stretch;

the server is arranged at the position of a community management department, and comprises:

the system comprises a monitoring camera, an ultrasonic sensor, a mobile protection platform, a mobile camera, a mobile mechanism, a hydraulic mechanism, a lifting driving mechanism, a laser sensor, an electric switch door, a fixed telescopic mechanism, a community management department, a community household terminal, an alarm center and an internet, wherein the monitoring camera, the ultrasonic sensor, the mobile protection platform, the mobile camera, the mobile mechanism, the hydraulic mechanism, the lifting driving mechanism, the laser sensor, the electric switch door, the fixed telescopic mechanism, the community management department, the community household terminal, the alarm center and the internet are connected with each other;

the monitoring shooting module is used for controlling the starting or closing of the monitoring camera;

the information acquisition module is used for acquiring the specified information;

the information analysis module is used for processing and analyzing the information according to the specified information;

the ultrasonic module is used for controlling the starting or the closing of the ultrasonic sensor;

the license plate recognition module is used for recognizing the license plate of the motor vehicle according to the specified information;

the information binding module is used for binding the specified object with another specified object;

the mobile shooting module is used for controlling the mobile camera to be started or closed;

the mobile control module is used for controlling the mobile mechanism to execute the set mobile operation of the mobile protection platform according to the set steps;

the hydraulic conflict module is used for controlling the hydraulic mechanism to execute the set conflict platform telescopic operation according to the set steps;

and the lifting control module is used for controlling the lifting driving mechanism to execute the set moving operation of the lifting track of the movable protection platform according to the set steps.

As a preferred aspect of the present invention, the server further includes:

the information extraction module is used for extracting the information contained in the specified information;

and the information matching module is used for matching the designated information with the resident information in the community database.

As a preferred aspect of the present invention, the server further includes:

the fixed switch module is used for controlling the opening or closing of the electric switch door;

and the fixed telescopic module is used for controlling the fixed telescopic mechanism to execute the set fixed block telescopic operation according to the set steps.

As a preferred aspect of the present invention, the server further includes:

and the laser identification module is used for controlling the laser sensor to be started or closed.

The invention realizes the following beneficial effects:

1. after intelligent motor vehicle protection system starts, through monitoring image and weather information real-time identification weather condition and after the rainfall is discerned to take place, the ponding height in real-time detection underground garage, after ponding surpassed preset height, control removes the protection platform and removes the bottom correspondence of motor vehicle and utilize hydraulic pressure mechanism to contradict the platform with the motor vehicle bottom, then utilize the conflict platform to rise the motor vehicle and control to remove the protection platform and transport the motor vehicle to the building position that the car owner corresponds the residence, then control to remove the protection platform and correspond lift actuating mechanism and the lift track of this building and control lift actuating mechanism and drive the motor vehicle with removing the protection platform and remove to the outside position that the car owner corresponds the residence.

2. After the movable protection platform is moved to the position outside the house corresponding to the car owner, the fixed groove outside the house is controlled to be opened, and the fixed telescopic mechanism of the movable protection platform is controlled to enable the fixed block to be abutted and fixed with the fixed groove.

3. When the movable protection platform is located outside the building, the accumulated water height information is obtained through the laser sensor in real time, and after the accumulated water is detected to reach the warning value, the movable protection platform outside the building is controlled to be sequentially arranged and moved to the area at the top of the building.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart of a method for providing intelligent vehicle protection according to one embodiment of the present invention;

FIG. 2 is a flowchart of a vehicle owner information matching method according to an exemplary embodiment of the present invention;

FIG. 3 is a flow chart of a method for controlling the fixing of a platform according to an exemplary embodiment of the present invention;

FIG. 4 is a flow chart of a method for controlling flooding of ground vehicles in a community according to an exemplary embodiment of the present invention;

FIG. 5 is a flow chart of an alert guard method provided by one example of the present invention;

FIG. 6 is a connection diagram of an intelligent vehicle protection system according to an exemplary embodiment of the present invention;

FIG. 7 is a side schematic view of a mobile protective platform according to one embodiment of the present invention;

fig. 8 is a schematic top view of a lifting track position of a mobile protective platform according to an example of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1, 5, and 6-8.

Specifically, the embodiment provides an intelligent motor vehicle protection method based on a high-rise building, and the method includes the following steps:

in S1, specifically, after the server 3 is started and receives a motor vehicle protection instruction sent by a community management department, the monitoring camera module 31 included in the server 3 controls the monitoring camera 10 disposed in the community area to start to capture a monitoring image in real time, where the monitoring image is an environmental image within the community area captured by the monitoring camera 10; meanwhile, the information acquisition module 32 included in the server 3 acquires weather information of the city in real time.

In S2, specifically, after the monitoring camera 10 is started and the information obtaining module 32 obtains the weather information, the information sending module included in the server 3 analyzes whether rainfall occurs in the community area in real time according to the weather information and the monitoring image.

In S3, it is specific after information analysis module 33 analyzed out to have the rainfall, ultrasonic wave module 34 control that server 3 contained sets up and starts the real-time garage ponding height information that obtains in ultrasonic sensor 11 that sets up in the inside top position of community underground garage, starts at ultrasonic sensor 11 and accomplishes the back, information analysis module 33 is according to garage ponding height information real-time analysis underground garage' S ponding whether have and surpass and predetermine the height, wherein it is set up by community management department to predetermine the height, preferably 3 centimetres in this embodiment.

In S4, specifically after the information analysis module 33 analyzes and exceeds the preset height, the license plate recognition module 35 included in the server 3 recognizes the vehicle information inside the underground garage in real time according to the monitoring image, wherein the vehicle information includes the vehicle model and the license plate information, after the license plate recognition module 35 completes recognition, the information binding module 36 included in the server 3 binds the vehicle inside the underground garage with the mobile protection platform 12 set in the underground garage in an idle position respectively according to the vehicle information, that is, one vehicle binds one mobile protection platform 12.

In S5, specifically, after the information binding module 36 has finished correspondingly binding all the motor vehicles with the mobile protection platform 12, the mobile capturing module 37 included in the server 3 controls the mobile camera 13 disposed at the external position of the mobile protection platform 12 to start capturing a mobile image in real time, where the mobile image is an image of an environment around the mobile protection platform 12 captured by the mobile camera 13; after the mobile camera 13 is started, the mobile control module 38 included in the server 3 controls the moving mechanism 14 disposed at a position below the mobile protection platform 12 to move the mobile protection platform 12 to the bottom position of the bound motor vehicle according to the mobile image.

At S6, specifically after the mobile protection platform 12 is completely moved, the hydraulic collision module 39 included in the server 3 controls the collision platform 16, which is disposed at the upper end of the mobile protection platform 12 and is driven by the hydraulic mechanism 15, to collide with the bottom of the vehicle above the mobile protection platform, and then controls the collision platform 16, which is driven by the hydraulic mechanism 15, to lift the vehicle to a set height, preferably 10 cm in this embodiment, that is, the bottom of the vehicle wheel is kept 10 cm high with the ground; after the motor vehicle is lifted, the mobile control module 38 controls the moving mechanism 14 to move the mobile protection platform 12 to the position of the lifting rail 21 of the matched building according to the mobile image, that is, the motor vehicle is transported to the position of the lifting rail 21 of the building where the vehicle owner lives.

In S7, specifically, after the protection mobile platform finishes moving the motor vehicle to the position of the lifting rail 21 of the matching building, the mobile control module 38 controls the mobile mechanism 14 to make the lifting driving mechanism 20 of the mobile protection platform 12 abut against and correspond to the lifting rail 21 according to the monitoring image and the mobile image, and after the lifting driving mechanism 20 abuts against and corresponds to the lifting rail 21, the lifting control module 40 included in the server 3 controls the mobile protection platform 12 connected to the lifting driving mechanism 20 to ascend to the position outside the matching building at the position of the lifting rail 21 according to the monitoring image and the mobile image, that is, the motor vehicle is transported to the position outside the building corresponding to the floor of the residential building of the vehicle owner; for example, the vehicle owner resides in the 10 th 3 rd room of the a building, the mobile guard platform 12 transports the vehicle to a location outside the building of the 3 rd room of the 10 th floor of the a building.

As a preferred mode of the present invention, after S2, the method further includes the steps of:

in S20, specifically after the information analysis module 33 analyzes that rainfall occurs, the laser recognition module 45 included in the server 3 controls the laser sensor 22 disposed at the outside of the building to start to acquire the height information of the surface water in real time, and after the laser sensor 22 is started, the information analysis module 33 analyzes whether the height of the surface water exceeds a preset height in real time according to the height information of the surface water, wherein the preset height in this embodiment is preferably 5 cm.

In S21, specifically, after the information analysis module 33 analyzes that the accumulated water exceeds the preset height, the movement control module 38 controls the moving mechanism 14 disposed below the mobile protection platform 12 to move the mobile protection platform 12 to the bottom of the vacant vehicle according to the moving image, and one vehicle corresponds to one mobile protection platform 12, and the mobile protection platform 12 corresponds to a vehicle whose accumulated water exceeds the preset height; after the mobile protection platform 12 is moved, the hydraulic collision module 39 controls the collision platform 16, which is arranged at the upper end of the mobile protection platform 12 and is driven by the hydraulic mechanism 15, to collide with the bottom of the vehicle above the mobile protection platform 16, and then controls the collision platform 16, which is driven by the hydraulic mechanism 15, to lift the vehicle to a set height, preferably 10 cm in this embodiment, that is, the bottom surface of the wheel of the vehicle is kept at a height of 10 cm from the ground.

In S22, specifically, after the vehicle is lifted, the mobile control module 38 controls the moving mechanism 14 to move the mobile protection platform 12 to the position of the lifting rail 21 matching the building according to the mobile image, and after the mobile protection platform 12 is moved, the mobile control module 38 controls the moving mechanism 14 to make the lifting driving mechanism 20 of the mobile protection platform 12 abut against and correspond to the lifting rail 21 according to the monitoring image and the mobile image.

In S23, specifically, after the lifting driving mechanism 20 abuts against and corresponds to the lifting rail 21, the lifting control module 40 controls the movable protection platform 12 driven and connected by the lifting driving mechanism 20 to ascend to the matched outside of the house at the position of the lifting rail 21 according to the monitoring image and the moving image.

Example two

Referring to fig. 2-3, fig. 6-8.

Specifically, this embodiment is substantially the same as the first embodiment, except that in S6, the method further includes the following steps:

in S60, specifically, after the hydraulic mechanism 15 of the mobile protection platform 12 collides and lifts the collision platform 16 with the motor vehicle, the information extraction module 41 included in the server 3 extracts the mobile image and the license plate information included in the motor vehicle information, and after the information extraction module 41 extracts the license plate information, the information matching module 42 included in the server 3 matches and identifies the residence information of the motor vehicle owner according to the license plate information and the residence information stored in the community database, where the residence information includes the residence address of the vehicle owner.

In S61, specifically, after the information matching module 42 matches the occupancy information of the owner of the motor vehicle, the movement control module 38 controls the moving mechanism 14 to move the movable protection platform 12 to the position of the lifting rail 21 outside the building, which is matched with the occupancy information, according to the occupancy information and the moving image.

As a preferable mode of the present invention, in S7, the method further includes the steps of:

in S70, specifically, after the mobile protection platform 12 moves the exciting vehicle to the position of the lifting rail 21 outside the building matching the living information, the information extraction module 41 extracts the floor and house information included in the living information, and after the information extraction module 41 finishes extracting, the mobile control module 38 controls the moving mechanism 14 to correspondingly abut the lifting driving mechanism 20 of the mobile protection platform 12 against the lifting rail 21 according to the monitoring image and the mobile image.

In S71, specifically, after the lifting driving mechanism 20 is abutted against the lifting rail 21, the lifting control module 40 controls the movable protection platform 12 driven and connected by the lifting driving mechanism 20 to be lifted to the position outside the house matching with the information of the floor and the house at the position of the lifting rail 21 according to the monitoring image and the moving image, and at the same time, the fixed switch module 43 included in the server 3 controls the fixed slot 23 at the position outside the house to be opened through the electric switch door 24.

In S72, specifically, after the fixing groove 23 is opened and the mobile protection platform 12 is moved to the matched location outside the house, the fixing expansion module 44 included in the server 3 controls the fixing block 26, which is driven and connected by the fixing expansion mechanism 25 disposed at the side position of the mobile protection platform 12, to extend to abut against and be fixed to the fixing groove 23.

EXAMPLE III

As shown with reference to fig. 5-8.

Specifically, the present embodiment is substantially the same as the first embodiment, except that in the present embodiment, after S7 and S22, the method further includes the following steps:

in S100, specifically after the mobile protection platform 12 finishes moving on the lifting track 21, the laser identification module 45 included in the server 3 controls the laser sensor 22 arranged at the position outside the building to start up to obtain the height information of the surface water in real time, and after the laser sensor 22 is started, the information analysis module 33 analyzes whether the height of the surface water exceeds the warning value in real time according to the height information of the surface water, wherein the warning value is set by the community management department, and is preferably 3 meters in this embodiment.

In S101, specifically, after the information analysis shows that the alarm value is exceeded, the lifting control module 40 controls the mobile protection platform 12 located below the middle of the building to be lifted to the top area of the building through the lifting driving mechanism 20 at the position of the lifting track 21 according to the monitoring image and the mobile image, and arranges the mobile protection platform according to the floor information.

Example four

As shown with reference to fig. 6-8.

Specifically, the embodiment provides an intelligent motor vehicle protection system based on a high-rise building, and an intelligent motor vehicle protection method based on a high-rise building is used, and comprises a motor vehicle protection device 1, a track moving device 2 and a server 3;

the motor vehicle protection device 1 comprises monitoring cameras 10, an ultrasonic sensor 11, a movable protection platform 12, a movable camera 13, a moving mechanism 14, a hydraulic mechanism 15 and a collision platform 16, wherein the monitoring cameras 10 are distributed in a community area and used for environment images of the community area; the ultrasonic sensor 11 is arranged at the top end position of the interior of an underground garage of the community and is used for acquiring the height information of accumulated water in the underground garage; the mobile protection platform 12 is placed at an inner position of an underground garage and used for providing mobile operation of a motor vehicle; the mobile camera 13 is arranged at an external position of the mobile protection platform 12 and is used for capturing an environmental image around the mobile protection platform 12; the moving mechanism 14 is arranged at a position below the moving protection platform 12 and is used for driving the moving protection platform 12 to move; the hydraulic mechanism 15 is arranged above the movable protection platform 12, connected with the abutting platform 16 and used for driving the connected abutting platform 16 to stretch; the abutting platform 16 is arranged above the hydraulic mechanism 15 and is used for abutting against the bottom of the motor vehicle after being extended out;

the rail moving device 2 comprises a lifting driving mechanism 20, a lifting rail 21, a laser sensor 22, a fixing groove 23, an electric switch door 24, a fixing telescopic mechanism 25 and a fixing block 26, wherein the lifting driving mechanism 20 is arranged at the side position of the movable protection platform 12 and used for driving the movable protection platform 12 to move at the position of the lifting rail 21; the lifting rails 21 are distributed at the outer position of the building and used for providing movement for the lifting driving mechanism 20; the laser sensor 22 is arranged at the position outside the building and used for acquiring the height information of the surface water of the area where the building is located; the fixing grooves 23 are arranged at the outer positions of houses on all floors of the building and used for providing abutting fixation of the fixing blocks 26; the electric switch door 24 is arranged at the inlet and outlet positions of the fixing groove 23 and is used for opening and closing the fixing groove 23; the fixed telescopic mechanism 25 is arranged at the inner position of the side of the movable protection platform 12, is connected with the fixed block 26 and is used for driving the connected fixed block 26 to stretch;

the server 3 is disposed at a location of a community management department, and the server 3 includes:

the connecting module 30 is used for being connected with the monitoring camera 10, the ultrasonic sensor 11, the mobile protection platform 12, the mobile camera 13, the moving mechanism 14, the hydraulic mechanism 15, the lifting driving mechanism 20, the laser sensor 22, the electric switch door 24, the fixed telescopic mechanism 25, the community management department, the community household terminal, the alarm center and the internet respectively;

the monitoring shooting module 31 is used for controlling the monitoring camera 10 to start or close;

an information acquisition module 32 for acquiring the specified information;

an information analysis module 33 for processing and analyzing information according to the specified information;

the ultrasonic module 34 is used for controlling the ultrasonic sensor 11 to be started or closed;

the license plate recognition module 35 is used for recognizing the license plate of the motor vehicle according to the specified information;

an information binding module 36 for binding a specified object with another specified object;

the mobile shooting module 37 is used for controlling the mobile camera 13 to be started or closed;

the movement control module 38 is used for controlling the moving mechanism 14 to execute the set moving operation of the mobile protection platform 12 according to the set steps;

the hydraulic collision module 39 is used for controlling the hydraulic mechanism 15 to execute the set collision platform 16 expansion and contraction operation according to the set steps;

and the lifting control module 40 is used for controlling the lifting driving mechanism 20 to execute the set moving operation of the lifting rail 21 of the movable protection platform 12 according to the set steps.

As a preferred aspect of the present invention, the server 3 further includes:

an information extraction module 41 for extracting information contained in the specification information;

and the information matching module 42 is used for matching the specified information with the resident information in the community database.

As a preferred aspect of the present invention, the server 3 further includes:

the fixed switch module 43 is used for controlling the opening or closing of the electric switch door 24;

and a fixed telescopic module 44 for controlling the fixed telescopic mechanism 25 to perform the set fixed block 26 telescopic operation according to the set steps.

As a preferred aspect of the present invention, the server 3 further includes:

and the laser identification module 45 is used for controlling the laser sensor 22 to be started or shut down.

The moving mechanism 14 comprises a moving motor and a moving roller, and the moving motor drives the connected moving roller to drive the moving protection platform 12 to move; the hydraulic mechanism 15 comprises a hydraulic pump and a hydraulic rod, and the hydraulic rod connected with the hydraulic pump drives the connected hydraulic rod to extend and retract the connected abutting platform 16; the lifting driving mechanism 20 comprises a track driving motor and a track roller, and the track driving motor drives the connected track roller to move at the position of the lifting track 21; the fixed telescopic mechanism 25 comprises a telescopic motor and a telescopic rod, and the telescopic rod connected with the telescopic motor drives the connected fixed block 26 to stretch.

It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to fourth embodiments), and is not described in detail here.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.