CN111083320A - Intelligent service protection method and system based on real estate information data - Google Patents

Abstract

An intelligent service protection method and system based on real estate information data comprises the following steps: if the house requirement information is received, the house requirement information and the user information contained in the house requirement information are extracted, the first house information is mined according to house requirement information data, the first house information is transmitted to the user terminal, the selection information fed back by the user terminal is obtained in real time, the second house information contained in the selection information is extracted, the owner contact information matched with the second house information is obtained, a house-watching reservation request is sent to the matched house owner terminal, a house-watching transport mechanism of a closest distance warehouse is bound for the user information, the first camera is controlled to be started, the house-watching transport mechanism is controlled to move to a user address, the house-watching protection mechanism is controlled to open a transport space, whether a user matched with a user image contained in the user information enters the transport space or not is analyzed, and if yes, the house-watching protection mechanism is controlled to close the transport space and is controlled to fly to a position matched with the house address contained in the second house information.

Description

Intelligent service protection method and system based on real estate information data

Technical Field

The invention relates to the field of house-watching protection of a house, in particular to an intelligent service protection method and system based on house information data.

Background

With the continuous and rapid development of the general economy of China, the real estate industry in China is also rapidly developed, real estate transactions are always topics discussed after meals, at present, in order to enable customers to more intuitively know the types of sold houses and floors, a real estate merchant sets a model for simulating the floors and the types of houses at each real estate sales department, but the existing model can only know the appearances of the floors, users cannot see the internal conditions from the floor models, but can only enable the users to see the houses on site, but sometimes the difference between the houses seen by the users and the appearances seen by the users is large when the users go to the houses on site, and unnecessary time is wasted;

moreover, the user can see the house on site, and potential safety hazards exist, for example, the guard bars of some blank houses are not installed, so that the personnel fall off, some personnel fall down from the upstairs of the construction site carelessly, and some personnel are hit by objects falling from the high altitude, so that accidents caused by seeing the house are not few.

Therefore, how to combine the transportation unmanned aerial vehicle, big data and house property, make after obtaining that the user has the room purchase demand, for user data mining matched house information and contact the owner or the developer who matches according to user's selection and make an appointment and see the room, then transport protective frame to user's position through transportation unmanned aerial vehicle and for the user gets into protective frame and go to the house address position and see the room, in order to avoid meeting with foretell accident, it is the problem that needs to solve at present to improve the security that the user looked at the room.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the disadvantages in the background art, embodiments of the present invention provide an intelligent service protection method and system based on property information data, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent service protection method based on real estate information data, the method comprising the steps of:

s1, if house demand information fed back by a user terminal keeping a connection relation is received, extracting a house area interval, a house price interval, a house section demand, a house floor demand and user information contained in the house demand information, and mining matched first house information according to the house area interval, the house price interval, the house section demand and the house floor demand data;

s2, transmitting the first house information after data mining to the user terminal and acquiring the selection information fed back by the user terminal in real time;

s3, extracting second house information contained in the acquired selection information, and acquiring owner contact information matched with the second house information according to the second house information;

s4, sending a house-watching reservation request to a matched house owner terminal according to the acquired contact information of the house owner, and binding an idle house-watching transportation mechanism in a warehouse with the shortest distance on the electronic map for the extracted user information;

s5, controlling a first camera arranged at the external position of the house-watching transport mechanism to start to shoot a first image in real time and controlling the house-watching transport mechanism to move to a user address position contained in the user information according to the first image;

s6, controlling a house-watching protection mechanism arranged below the house-watching transportation mechanism to open a transportation space and analyzing whether a user matched with the user image contained in the user information enters the transportation space according to a first image;

and S7, if yes, controlling the house-watching protection mechanism to close the transportation space and controlling the house-watching transportation mechanism to fly to the position matched with the house address contained in the second house information according to the first image.

As a preferred mode of the present invention, after S7, the method further includes the steps of:

s70, controlling the telescopic moving mechanism arranged below the house-viewing protection mechanism to extend out and controlling the house-viewing transportation mechanism to be disconnected with the house-viewing protection mechanism;

s71, controlling a second camera arranged at the outer position of the house-watching protection mechanism to start to capture a second image in real time and controlling the telescopic moving mechanism to drive the house-watching protection mechanism to carry out house-watching movement in the house matched with the second house information according to the second image;

and S72, transmitting the second image shot by the second camera to a property database for backup storage.

As a preferred mode of the present invention, after S71, the method further includes the steps of:

s710, analyzing whether a house image contained in the second house information is matched with an environment image of a house where the house-watching protection mechanism is located in real time according to the second image;

s711, if the information is not matched, transmitting unmatched information containing the option to the user terminal and receiving the house-watching selection information fed back by the user terminal in real time;

s712, if the house-viewing selection information fed back by the user terminal is analyzed to be a contract signing option, controlling the house-viewing transportation mechanism to be connected with the house-viewing protection mechanism according to the first image and controlling the house-viewing transportation mechanism to transport the house-viewing protection mechanism to the recorded contract signing address position according to the first image;

and S713, controlling a house-watching protection mechanism reaching the contract signing address position to open a transportation space.

As a preferred mode of the present invention, after S711, the method further includes the steps of:

s714, if the house-watching selection information fed back by the user terminal is analyzed to be a return option, controlling the house-watching transport mechanism to be connected with the house-watching protection mechanism according to a first image and controlling the house-watching transport mechanism to transport the house-watching protection mechanism to a user address position contained in the user information according to the first image;

and S715, controlling the room-viewing protection mechanism which returns to the user address position to open a transportation space and transmitting the information that the second house information is inconsistent with the actual house information to the house database for backup storage.

As a preferred mode of the present invention, after S71, the method further includes the steps of:

s716, controlling the house-watching transport mechanism to fly and hover at the aerial position on the side of the house matched with the house address contained in the second house information according to the first image, and analyzing whether the house-watching protection mechanism in the house is in a dangerous state or not in real time according to the first image and the second image;

s717, if yes, controlling a positioning unit arranged in the house watching transport mechanism to start to acquire positioning data in real time and transmitting the positioning data, the first image, the second image and second house information to an alarm center;

and S718, controlling an alarm unit arranged outside the house watching transport mechanism to start and send alarm information to the periphery in real time.

An intelligent service protection system based on house property information data uses an intelligent service protection method based on house property information data, and comprises a house-looking transportation mechanism, a house-looking protection mechanism, a mobile telescopic mechanism, a house property database and a cloud service platform;

the house-watching transport mechanism comprises a transport unmanned aerial vehicle, a first camera, a connecting base, a connecting lock catch and an alarm unit, wherein the transport unmanned aerial vehicle is stored in the warehouse and used for transporting the protective frame; the first camera is arranged at the outer position of the transport unmanned aerial vehicle and used for shooting an environmental image around the transport unmanned aerial vehicle; the connecting base is arranged at the bottom of the transport unmanned aerial vehicle and is used for abutting against the connecting top cover; the connecting lock catch is arranged at the position of the connecting base and used for fixing the connecting top cover and the connecting base; the alarm unit is arranged at the outer position of the transport unmanned aerial vehicle and used for sending light and sound alarm information;

the house-watching protection mechanism comprises a protection frame, an isolation telescopic motor, an isolation telescopic column, a connecting top cover, a fixed locking groove and a second camera, wherein the isolation telescopic motor is arranged at the inner position of the side of the top end of the protection frame, is connected with the isolation telescopic column and is used for driving the isolation telescopic column connected with the isolation telescopic column to stretch; the isolation telescopic column is arranged at the side position of the top end of the protection frame and used for opening and closing the transportation space of the protection frame; the connecting top cover is arranged at the top of the protective frame and is used for being fixed with the connecting base; the fixed lock groove is arranged in the connecting top cover and used for being fixed with the connecting lock catch; the second camera is arranged at the outer position of the protective frame and used for shooting an environmental image around the protective frame;

the movable telescopic mechanism comprises a movable telescopic motor, a movable telescopic support, a movable motor and a roller group, wherein the movable telescopic motor is arranged at the inner position of the bottom end of the protective frame, is connected with the movable telescopic support and is used for driving the connected movable telescopic support to stretch; the movable telescopic support is respectively connected with the movable telescopic motor and the movable motor and used for driving the movable motor to stretch; the moving motor is arranged at the front end of the moving telescopic support column, is connected with the roller group and is used for driving the connected roller group to operate; the roller group is connected with the moving motor and is used for driving the protective frame to move;

the property database is used for information;

the cloud service platform comprises:

the wireless module is used for being wirelessly connected with the transportation unmanned aerial vehicle, the first camera, the connecting lock catch, the alarm unit, the isolation telescopic motor, the mobile motor, the user terminal, the householder terminal, the management department external equipment and the internet respectively;

the information receiving module is used for receiving information and/or requests and/or instructions;

the information extraction module is used for extracting the information and/or the request and/or the instruction contained in the specified information and/or request and/or instruction;

the data mining module is used for mining matched house information according to the house area interval, the house price interval, the house section demand and the house floor demand data;

the information transmission module is used for transmitting the specified information and/or request and/or instruction to the specified object;

the user acquisition module is used for acquiring selection information fed back by the user terminal;

the owner obtaining module is used for obtaining owner contact information matched with the second house information;

the reservation house-watching module is used for sending a house-watching reservation request to the matched house owner terminal according to the house owner contact information acquired by the house owner acquisition module;

the transportation binding module is used for binding or unbinding the user information with the transportation unmanned aerial vehicle which is idle in the warehouse and is closest to the electronic map;

the first shooting module is used for controlling the first camera to start or stop;

the transportation control module is used for controlling the transportation unmanned aerial vehicle to execute set operation according to the set steps;

the transportation telescopic module is used for controlling the isolation telescopic column in driving connection with the isolation telescopic motor to perform telescopic operation;

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

As a preferred mode of the present invention, the cloud service platform further includes:

the movable telescopic module is used for controlling a movable telescopic strut which is in driving connection with a movable telescopic motor to perform telescopic operation;

the fixing control module is used for controlling the connecting lock catch and the fixing lock groove to be fixed or unfixed;

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

the mobile control module is used for controlling the roller group connected with the mobile motor to execute set operation according to the set steps;

and the first backup module is used for transmitting the image shot by the second camera to the designated position of the property data for backup storage.

As a preferred mode of the present invention, the cloud service platform further includes:

the option transmission module is used for transmitting information containing the options to the user terminal;

and the address storage module is used for recording the address information signed by the contract.

As a preferred mode of the present invention, the cloud service platform further includes:

and the second backup module is used for transmitting the information that the house information selected by the user is inconsistent with the actual house information to the house database for backup storage.

As a preferred mode of the present invention, the cloud service platform further includes:

the positioning control module is used for controlling the starting or the closing of the positioning unit;

the alarm module is used for transmitting the image shot by the first camera, the image shot by the second camera, the positioning data obtained by the positioning unit and the second house information selected by the user to the alarm center;

and the alarm control module is used for controlling the alarm unit to be started or closed.

The invention realizes the following beneficial effects:

1. after the intelligent service protection system acquires the house requirements of the user, the house information corresponding to the house requirements of the matched user is mined for the user data and provided for the user to select, meanwhile, an idle transport unmanned aerial vehicle in the closest distance warehouse is bound for the user, then, the house-watching reservation is carried out on the matched owner according to the house information selected by the user, the transport unmanned aerial vehicle is controlled to go to the user address position, so that the user can enter the transport space of the protection frame connected with the transport unmanned aerial vehicle and can transport the user to the house address position of the house information selected by the user, and the user is protected from watching the house; the accidents that a user falls off due to the fact that a guardrail of a blank house is not installed, accidentally falls down from the building site upstairs, is smashed by an object falling from the high altitude and the like are avoided, and the safety of the user in watching the house is improved.

2. After the protective frame reaches the house address position of the house information selected by the user, controlling a movable telescopic mechanism of the protective frame to stretch out and controlling a transport unmanned aerial vehicle to release the connection of the protective frame, so that the movable telescopic mechanism drives the protective frame to move for watching the house in the house, analyzing the matching condition of the house where the protective frame is located and the house information selected by the user, informing the user to select if the house where the protective frame is located is not matched with the house information selected by the user, and connecting the transport unmanned aerial vehicle with the protective frame and transporting the protective frame to the contract address position if the user selects to sign a contract; if the user selects to return, the transport unmanned aerial vehicle is connected with the protective frame and transports the protective frame to the user address position.

3. When the protective framework is seen to move, the unmanned transport vehicle is controlled to hover and monitor in the corresponding side of the house, if the protective framework is analyzed to be in a dangerous state, the alarm operation is carried out, and meanwhile, the alarm unit is controlled to carry out the alarm operation.

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 intelligent service protection services provided by one example of the present invention;

fig. 2 is a flowchart of a mobile room-viewing control method according to an example of the present invention;

FIG. 3 is a flow chart of a contract control method provided by one example of the present invention;

FIG. 4 is a flow chart of a return reset control method provided by one example of the present invention;

FIG. 5 is a flow chart of a security alarm control method provided by one example of the present invention;

FIG. 6 is a connection diagram of an intelligent service defense service system provided by one example of the present invention;

fig. 7 is a schematic view of a transport drone transport containment frame provided by one example of the present invention;

FIG. 8 is a schematic view, partially in section, of a connection base and connection cap securing area according to one example of the invention;

fig. 9 is a partially sectional schematic view of an area where the roller group is provided according to one 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, shown in fig. 6-8.

Specifically, the embodiment provides an intelligent service protection method based on property information data, and the method includes the following steps:

s1, if house demand information fed back by a user terminal keeping the connection relation is received, extracting a house area section, a house price section, a house section demand, a house floor demand and user information contained in the house demand information, and mining matched first house information according to the house area section, the house price section, the house section demand and the house floor demand data.

In S1, specifically, after the information receiving module 51 included in the cloud service platform 5 receives the house requirement information fed back by the user terminal that maintains the connection relationship, the information extracting module 52 included in the cloud service platform 5 extracts the house area interval, the house price interval, the house section requirement, the house floor requirement, and the user information included in the house requirement information; the method comprises the following steps that a house area interval, a house price interval, a house section demand and a house floor demand are user demand information of a house, and the user information comprises user terminal information, a user address, a user image and user quantity; after the information extraction module 52 extracts the demand information of the user on the house, the data mining module 53 included in the cloud service platform 5 mines the matched first house information according to the house area interval, the house price interval, the house section demand and the house floor demand data; the first house information is the house information which is mined by the data mining module 53 and meets the user requirements, and each house information is marked with a unique number.

And S2, transmitting the first house information after data mining to the user terminal and acquiring the selection information fed back by the user terminal in real time.

In S2, specifically, after the data mining by the data mining module 53 is completed, the information transmission module 54 included in the cloud service platform 5 transmits the first house information mined from the data mining module 53 to the user terminal, and meanwhile, the user acquisition module 55 included in the cloud service platform 5 acquires, in real time, the selection information fed back by the user terminal, where the selection information includes a serial number of the house information that the user needs to see the house.

And S3, extracting second house information contained in the acquired selection information, and acquiring owner contact information matched with the second house information according to the second house information.

In S3, specifically, after the user obtaining module 55 obtains that the selection information is fed back by the user terminal, the information extracting module 52 extracts the second house information included in the obtained selection information; the second house information is house information that a user needs to see a house; after the information extraction module 52 finishes extracting, a householder obtaining module 56 included in the cloud service platform 5 obtains householder contact information matched with the second house information according to the second house information; if the house is the first house, the contact information corresponding to the sales department of the developer is acquired, and if the house is the second house, the contact information recorded when the house owner registers for sale is acquired.

And S4, sending a house-watching reservation request to a matched house owner terminal according to the acquired contact information of the house owner, and binding the idle house-watching transportation mechanism 1 in the nearest distance warehouse on the electronic map for the extracted user information.

In S4, specifically, after the owner obtaining module 56 obtains the owner contact information, the reservation watching module 57 included in the cloud service platform 5 sends a watching reservation request to the matched owner terminal according to the obtained owner contact information, that is, if the owner is a first house, the owner contacts the developer sales department to make a reservation and watch the house, and if the owner is a second house, the owner of the house is contacted to make a reservation and watch the house; meanwhile, the transportation binding module 58 included in the cloud service platform 5 binds the idle room-watching transportation mechanism 1 in the nearest warehouse on the electronic map to the user information extracted by the information extraction module 52, namely binds the transportation unmanned aerial vehicle 10 in a standby state in the nearest warehouse to the user, and the space capacity of the protection frame 20 connected with the transportation unmanned aerial vehicle 10 is matched with the room-watching number of the user, for example, the user 2 watches the room, and then binds the transportation unmanned aerial vehicle 10 connected with the protection frame 20 capable of containing two persons.

And S5, controlling a first camera 11 arranged at the external position of the house watching transport mechanism 1 to start to shoot a first image in real time and controlling the house watching transport mechanism 1 to move to the user address position contained in the user information according to the first image.

The first image is an image of an environment around the transportation unmanned aerial vehicle 10 captured by the first camera 11.

In S5, it is specifically that the householder makes an appointment and finishes seeing the house and binds user information and transportation unmanned aerial vehicle 10, and the time reaches the reservation and sees the house time after 1 hour ago, the transportation control module 60 control that cloud service platform 5 contains transportation unmanned aerial vehicle 10 starts, after transportation unmanned aerial vehicle 10 starts the completion, the control of first ingestion module 59 that cloud service platform 5 contains set up in see that the first camera 11 of 1 outside position of house transport mechanism starts to ingest first image in real time, after first camera 11 starts the completion, transportation control module 60 is according to first image control transportation unmanned aerial vehicle 10 transports protection frame 20 to the user address position that user information contains.

S6, controlling the room-viewing protection mechanism 2 arranged below the room-viewing transportation mechanism 1 to open a transportation space and analyzing whether a user matched with the user image contained in the user information enters the transportation space according to the first image.

In S6, specifically after transportation unmanned aerial vehicle 10 transports protective frame 20 to user address position, the flexible module 61 control of transportation that cloud service platform 5 contained the flexible post 22 of isolation that protective frame 20 ' S flexible motor 21 drive is connected contracts completely to open protective frame 20 ' S transportation space, after the transportation space is opened, information analysis module 62 that cloud service platform 5 contained according to first image real-time analysis with whether the user that user ' S image that user information contained matches has the entering transportation space.

And S7, if yes, controlling the house-watching protection mechanism 2 to close the transportation space and controlling the house-watching transportation mechanism 1 to fly to the position matched with the house address contained in the second house information according to the first image.

In S7, specifically information analysis module 62 analyzes out with the user that user 'S image that user information contained matches has the entering transportation space after, transportation telescopic module 61 controls keep apart telescopic motor 21 drive connection' S isolation telescopic column 22 and stretch out completely, closes at the transportation space and accomplishes the back, transportation control module 60 is according to first image control transportation unmanned aerial vehicle 10 with the protective framework 20 transportation of connecting to with the position of the house address matching that second house information contained.

Example two

Referring to fig. 2-4, fig. 6-9.

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

and S70, controlling the telescopic moving mechanism arranged below the house-watching protection mechanism 2 to extend out and controlling the house-watching transport mechanism 1 to be disconnected with the house-watching protection mechanism 2.

Specifically, arrive at transportation unmanned aerial vehicle 10 with behind the position that the house address that second house information contained matches, the flexible module 63 control of removal that cloud service platform 5 contained the flexible motor 30 drive of the flexible post 31 of removal of the protective frame 20 that transportation unmanned aerial vehicle 10 connects is connected stretches out completely, then transportation control module 60 is according to first image control protective frame 20 that transportation unmanned aerial vehicle 10 will connect is placed in ground position, places protective frame 20 behind ground position at transportation unmanned aerial vehicle 10, the fixed control module 64 control that cloud service platform 5 contained the connecting lock catch 13 of transportation unmanned aerial vehicle 10 below removes with fixed locked groove 24's fixed.

And S71, controlling the second camera 25 arranged at the outer position of the room-viewing protection mechanism 2 to start to capture a second image in real time and controlling the telescopic moving mechanism to drive the room-viewing protection mechanism 2 to view the room in the house matched with the second room information according to the second image.

The second image refers to an image of an environment around the protection frame 20 captured by the second camera 25.

Specifically, after the transportation unmanned aerial vehicle 10 is disconnected from the protection frame 20, the second camera 25 of the protection frame 20 is controlled by the second capturing module 65 included in the cloud service platform 5 to start capturing the second image in real time, then the movement control module 66 included in the cloud service platform 5 controls the roller group 33 connected to the driving motor 32 to drive the protection frame 20 to go to the building floor included in the second room information through the elevator according to the second image, then go to the house position contained in the second house information and enter the house interior needing to see the house, then, the movement control module 66 controls the roller group 33 driven and connected by the movement motor 32 according to the second image to drive the protection frame 20 to move for watching the house in the house matched with the second house information, that is, to go to the inside of each room of the house, so that the user can watch the house.

And S72, transmitting the second image shot by the second camera 25 into the property database 4 for backup storage.

Specifically, while the protection frame 20 moves, the first backup module 67 included in the cloud service platform 5 transmits the second image captured by the second camera 25 to the property database 4 for backup storage.

As a preferred mode of the present invention, after S71, the method further includes the steps of:

and S710, analyzing whether the house image contained in the second house information is matched with the environment image of the house where the house watching protection mechanism 2 is located in real time according to the second image.

Specifically, after the protective frame 20 performs the house-watching movement, the information analysis module 62 analyzes in real time whether the house image included in the second house information matches the environment image of the house where the protective frame 20 is located according to the second image, that is, whether the house where the protective frame 20 is located matches the second house information.

And S711, if the information is not matched, transmitting unmatched information containing the option to the user terminal and receiving the house-watching selection information fed back by the user terminal in real time.

Specifically, after the information analysis module 62 analyzes that the house where the protection frame 20 is located does not conform to the record of the second house information, the option transmission module 68 transmits unmatched information including a selection item to the user terminal, where the selection item is a contract made and two selection items are returned, and a manager may add or delete the selection item according to actual needs; after the information transmission module 54 transmits the unmatched information containing the selection item to the user terminal, the information receiving module 51 receives the room-viewing selection information fed back by the user terminal in real time.

And S712, if the house-watching selection information fed back by the user terminal is analyzed to be a contract signing option, controlling the house-watching transport mechanism 1 to be connected with the house-watching protection mechanism 2 according to the first image, and controlling the house-watching transport mechanism 1 to transport the house-watching protection mechanism 2 to the recorded contract signing address position according to the first image.

Specifically, after user terminal feeds back the house selection information of seeing, information analysis module 62 analysis see the option that house selection information contains, if information analysis module 62 analyzes that the house selection information of seeing that user terminal feedback is for signing a contract option, then transportation control module 60 is according to first image control transportation unmanned aerial vehicle 10 with protective frame 20's top is contradicted, then fixed control module 64 control transportation unmanned aerial vehicle 10's connecting lock 13 with protective frame 20's fixed locked groove 24 is fixed, is connected the completion back at transportation unmanned aerial vehicle 10 and protective frame 20, transportation control module 60 is according to first image control transportation unmanned aerial vehicle 10 will protective frame 20 transports to the address position is signed a contract of address storage module 69 record that cloud service platform 5 contains.

And S713, controlling the ward-watching protection mechanism 2 reaching the contract signing address position to open the transportation space.

Specifically, after the transport unmanned aerial vehicle 10 reaches the recorded contract signing address position, the transport telescopic module 61 controls the isolation telescopic column 22 driven and connected by the isolation telescopic motor 21 of the protection frame 20 to completely contract to open the transport space of the protection frame 20.

As a preferred mode of the present invention, after S711, the method further includes the steps of:

and S714, if the house-watching selection information fed back by the user terminal is analyzed to be a return option, controlling the house-watching transport mechanism 1 to be connected with the house-watching protection mechanism 2 according to a first image, and controlling the house-watching transport mechanism 1 to transport the house-watching protection mechanism 2 to the user address position contained in the user information according to the first image.

Specifically, after information analysis module 62 analyzed out the house of looking of user terminal feedback and selected information for returning the option, transportation control module 60 is according to first image control transportation unmanned aerial vehicle 10 with protective frame 20's top is contradicted, then fixed control module 64 controls transportation unmanned aerial vehicle 10's connecting lock 13 with protective frame 20's fixed locked groove 24 is fixed, is connected the completion back at transportation unmanned aerial vehicle 10 and protective frame 20, transportation control module 60 is according to first image control transportation unmanned aerial vehicle 10 will protective frame 20 transports extremely user address position that user information contains.

And S715, controlling the room-viewing protection mechanism 2 which returns to the user address position to open a transportation space and transmitting the information that the second house information is inconsistent with the actual house information to the house database 4 for backup storage.

Specifically, after the transportation unmanned aerial vehicle 10 reaches the user address position included in the user information, the transportation telescopic module 61 controls the isolation telescopic column 22, which is driven and connected by the isolation telescopic motor 21 of the protection frame 20 and returns to the user address position, to completely contract and open the transportation space, and meanwhile, the second backup module 70 included in the cloud service platform 5 transmits information that the second house information does not accord with the actual house information to the house property database 4 for backup storage;

after the transportation space is opened, whether the information analysis module 62 leaves the transportation space according to the users inside the first image and the second image real-time analysis transportation space, after the information analysis module 62 analyzes that all the users leave the transportation space, the transportation control module 60 controls the transportation unmanned aerial vehicle 10 to fly to enter a charging standby state in the warehouse where the transportation unmanned aerial vehicle initially exists.

EXAMPLE III

As shown with reference to fig. 5-7.

Specifically, this embodiment is substantially the same as the first embodiment, except that in this embodiment, after S71, the method further includes the following steps:

and S716, controlling the house-watching transport mechanism 1 to fly and hover at the aerial position on the side of the house matched with the house address contained in the second house information according to the first image, and analyzing whether the house-watching protection mechanism 2 in the house is in a dangerous state or not in real time according to the first image and the second image.

Specifically, after the protective frame 20 moves inside the house to see the house, the transportation control module 60 controls the transportation unmanned aerial vehicle 10 to fly and hover at the aerial position of the side of the house matched with the house address contained in the second house information according to the first image, monitors the house-looking process of the user in real time through the first image to prevent the user from having an emergency situation, separates the transportation unmanned aerial vehicle 10 from the protective frame 20 to ensure that the transportation unmanned aerial vehicle 10 and the protective frame 20 are not simultaneously interfered by electrons, and after the transportation unmanned aerial vehicle 10 hovers, the information analysis module 62 analyzes whether the protective frame 20 inside the house is in a dangerous state or not in real time according to the first image and the second image; the dangerous states include, but are not limited to, states that a user cannot ask for help, such as being damaged, attacked, being fixed and limited to personal freedom, and the like.

Wherein, transport unmanned aerial vehicle 10 and protective frame 20 mutual signal of signalling in real time, if transport unmanned aerial vehicle 10 does not receive the signal of protective frame 20 transmission after 1 minute then judge that protective frame 20 is in dangerous state, if protective frame 20 does not receive the signal of transport unmanned aerial vehicle 10 transmission after 1 minute then judge that transport unmanned aerial vehicle 10 is in dangerous state, report to the police the processing equally.

And S717, if yes, controlling a positioning unit arranged in the house watching transport mechanism 1 to start to acquire positioning data in real time and transmitting the positioning data, the first image, the second image and the second house information to an alarm center.

Specifically, after the information analysis module 62 analyzes that the protection frame 20 is in a dangerous state, the positioning control module 71 included in the cloud service platform 5 controls the positioning unit arranged inside the house watching transport mechanism 1 to start to acquire positioning data in real time, and after the positioning unit is started, the alarm module 72 included in the cloud service platform 5 transmits the positioning data, the first image, the second image and the second house information to the alarm center; the first image and the second image may be images captured by the first camera 11 and the second camera 25 from the start to the last operation.

And judging that the transport unmanned aerial vehicle 10 is in a dangerous state and executing operation.

And S718, controlling an alarm unit 14 arranged outside the house watching transport mechanism 1 to start sending alarm information to the periphery in real time.

Specifically, the alarm control module 73 included in the cloud service platform 5 controls the alarm unit 14 disposed outside the transport drone 10 to start emitting light and sound alarm information to the surroundings in real time, so as to seek help.

Example four

As shown with reference to fig. 6-9.

Specifically, the embodiment provides an intelligent service protection system based on property information data, and an intelligent service protection method based on property information data is used, and comprises a house-watching transport mechanism 1, a house-watching protection mechanism 2, a mobile telescopic mechanism 3, a property database 4 and a cloud service platform 5;

the house-watching transport mechanism 1 comprises a transport unmanned aerial vehicle 10, a first camera 11, a connecting base 12, a connecting lock catch 13 and an alarm unit 14, wherein the transport unmanned aerial vehicle 10 is stored in a warehouse and used for transporting a protective frame 20; the first camera 11 is arranged at an external position of the unmanned transport vehicle 10 and is used for capturing an environmental image around the unmanned transport vehicle 10; the connecting base 12 is arranged at the bottom of the transport unmanned aerial vehicle 10 and used for abutting against the connecting top cover 23; the connecting lock catch 13 is arranged at the position of the connecting base 12 and is used for fixing the connecting top cover 23 and the connecting base 12; the alarm unit 14 is arranged at an external position of the transport unmanned aerial vehicle 10 and used for emitting light and sound alarm information;

the house-viewing protection mechanism 2 comprises a protection frame 20, an isolation telescopic motor 21, an isolation telescopic column 22, a connecting top cover 23, a fixed locking groove 24 and a second camera 25, wherein the isolation telescopic motor 21 is arranged at the inner position of the side of the top end of the protection frame 20, is connected with the isolation telescopic column 22 and is used for driving the isolation telescopic column 22 connected with the isolation telescopic column to stretch; the isolation telescopic column 22 is arranged at the side position of the top end of the protection frame 20 and used for opening and closing the transportation space of the protection frame 20; the connecting top cover 23 is arranged at the top of the protective frame 20 and is used for being fixed with the connecting base 12; the fixed lock groove 24 is arranged at the inner position of the connecting top cover 23 and is used for fixing the connecting lock catch 13; the second camera 25 is disposed at an outer position of the protection frame 20, and is configured to capture an image of an environment around the protection frame 20;

the movable telescopic mechanism 3 comprises a movable telescopic motor 30, a movable telescopic support 31, a movable motor 32 and a roller group 33, wherein the movable telescopic motor 30 is arranged at an inner position at the bottom end of the protective frame 20, is connected with the movable telescopic support 31 and is used for driving the connected movable telescopic support 31 to stretch; the movable telescopic support 31 is respectively connected with the movable telescopic motor 30 and the movable motor 32 and is used for driving the movable motor 32 to stretch and retract; the moving motor 32 is arranged at the front end of the moving telescopic support 31, connected with the roller group 33 and used for driving the connected roller group 33 to operate; the roller group 33 is connected with the moving motor 32 and is used for driving the protective frame 20 to move;

the property database 4 is used for information;

the cloud service platform 5 includes:

the wireless module 50 is used for being wirelessly connected with the transportation unmanned aerial vehicle 10, the first camera 11, the connecting lock catch 13, the alarm unit 14, the isolation telescopic motor 21, the mobile telescopic motor 30, the mobile motor 32, the user terminal, the householder terminal, the management department external equipment and the internet respectively;

an information receiving module 51, configured to receive information and/or requests and/or instructions;

an information extraction module 52 for extracting information and/or requests and/or instructions contained in the specified information and/or requests and/or instructions;

the data mining module 53 is used for mining matched house information according to the house area interval, the house price interval, the house section demand and the house floor demand data;

an information transmission module 54 for transmitting the specified information and/or request and/or instruction to the specified object;

a user obtaining module 55, configured to obtain selection information fed back by the user terminal;

the owner obtaining module 56 is configured to obtain owner contact information matched with the second house information;

a reservation house-watching module 57, configured to send a house-watching reservation request to the matched owner terminal according to the owner contact information acquired by the owner acquisition module 56;

the transportation binding module 58 is used for binding or unbinding the user information with the transportation unmanned aerial vehicle 10 which is idle in the warehouse and is closest to the electronic map;

a first capturing module 59 for controlling the first camera 11 to start or stop;

a transportation control module 60 for controlling the transportation drone 10 to execute the set operation according to the set steps;

the transportation telescopic module 61 is used for controlling the isolation telescopic column 22 in driving connection with the isolation telescopic motor 21 to perform telescopic operation;

and an information analysis module 62 for processing and analyzing the information according to the specified information.

As a preferred mode of the present invention, the cloud service platform 5 further includes:

the movable telescopic module 63 is used for controlling the movable telescopic strut 31 which is in driving connection with the movable telescopic motor 30 to perform telescopic operation;

the fixing control module 64 is used for controlling the connecting lock catch 13 and the fixing lock groove 24 to be fixed or unfixed;

a second shooting module 65, configured to control the second camera 25 to start or close;

a movement control module 66 for controlling the movement motor 32 to drive the connected roller group 33 to execute the set operation according to the set steps;

the first backup module 67 is configured to transmit the image captured by the second camera 25 to a designated location of the property data for backup storage.

As a preferred mode of the present invention, the cloud service platform 5 further includes:

an option transmission module 68, configured to transmit information including the selection item to the user terminal;

and an address storage module 69 for recording the address information of contract.

As a preferred mode of the present invention, the cloud service platform 5 further includes:

and the second backup module 70 is configured to transmit the information that the house information selected by the user does not conform to the actual house information to the property database 4 for backup storage.

As a preferred mode of the present invention, the cloud service platform 5 further includes:

a positioning control module 71, configured to control the positioning unit to start or stop;

the alarm module 72 is configured to transmit the image captured by the first camera 11, the image captured by the second camera 25, the positioning data obtained by the positioning unit, and the second house information selected by the user to an alarm center;

and an alarm control module 73 for controlling the alarm unit 14 to be turned on or off.

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 the third 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.

Claims (10)

1. An intelligent service protection method based on real estate information data is characterized by comprising the following steps:

s1, if house demand information fed back by a user terminal keeping a connection relation is received, extracting a house area interval, a house price interval, a house section demand, a house floor demand and user information contained in the house demand information, and mining matched first house information according to the house area interval, the house price interval, the house section demand and the house floor demand data;

s2, transmitting the first house information after data mining to the user terminal and acquiring the selection information fed back by the user terminal in real time;

s3, extracting second house information contained in the acquired selection information, and acquiring owner contact information matched with the second house information according to the second house information;

s4, sending a house-watching reservation request to a matched house owner terminal according to the acquired contact information of the house owner, and binding an idle house-watching transportation mechanism in a warehouse with the shortest distance on the electronic map for the extracted user information;

s5, controlling a first camera arranged at the external position of the house-watching transport mechanism to start to shoot a first image in real time and controlling the house-watching transport mechanism to move to a user address position contained in the user information according to the first image;

s6, controlling a house-watching protection mechanism arranged below the house-watching transportation mechanism to open a transportation space and analyzing whether a user matched with the user image contained in the user information enters the transportation space according to a first image;

and S7, if yes, controlling the house-watching protection mechanism to close the transportation space and controlling the house-watching transportation mechanism to fly to the position matched with the house address contained in the second house information according to the first image.

2. The intelligent service protection method based on property information data according to claim 1, wherein after S7, the method further comprises the following steps:

s70, controlling the telescopic moving mechanism arranged below the house-viewing protection mechanism to extend out and controlling the house-viewing transportation mechanism to be disconnected with the house-viewing protection mechanism;

s71, controlling a second camera arranged at the outer position of the house-watching protection mechanism to start to capture a second image in real time and controlling the telescopic moving mechanism to drive the house-watching protection mechanism to carry out house-watching movement in the house matched with the second house information according to the second image;

and S72, transmitting the second image shot by the second camera to a property database for backup storage.

3. The intelligent service protection method based on property information data according to claim 2, wherein after S71, the method further comprises the following steps:

s710, analyzing whether a house image contained in the second house information is matched with an environment image of a house where the house-watching protection mechanism is located in real time according to the second image;

s711, if the information is not matched, transmitting unmatched information containing the option to the user terminal and receiving the house-watching selection information fed back by the user terminal in real time;

s712, if the house-viewing selection information fed back by the user terminal is analyzed to be a contract signing option, controlling the house-viewing transportation mechanism to be connected with the house-viewing protection mechanism according to the first image and controlling the house-viewing transportation mechanism to transport the house-viewing protection mechanism to the recorded contract signing address position according to the first image;

and S713, controlling a house-watching protection mechanism reaching the contract signing address position to open a transportation space.

4. The intelligent service protection method based on property information data according to claim 3, wherein after S711, the method further comprises the following steps:

s714, if the house-watching selection information fed back by the user terminal is analyzed to be a return option, controlling the house-watching transport mechanism to be connected with the house-watching protection mechanism according to a first image and controlling the house-watching transport mechanism to transport the house-watching protection mechanism to a user address position contained in the user information according to the first image;

and S715, controlling the room-viewing protection mechanism which returns to the user address position to open a transportation space and transmitting the information that the second house information is inconsistent with the actual house information to the house database for backup storage.

5. The intelligent service protection method based on property information data according to claim 2, wherein after S71, the method further comprises the following steps:

s716, controlling the house-watching transport mechanism to fly and hover at the aerial position on the side of the house matched with the house address contained in the second house information according to the first image, and analyzing whether the house-watching protection mechanism in the house is in a dangerous state or not in real time according to the first image and the second image;

s717, if yes, controlling a positioning unit arranged in the house watching transport mechanism to start to acquire positioning data in real time and transmitting the positioning data, the first image, the second image and second house information to an alarm center;

and S718, controlling an alarm unit arranged outside the house watching transport mechanism to start and send alarm information to the periphery in real time.

6. An intelligent service protection system based on property information data, which uses the intelligent service protection method based on property information data of any one of claims 1-5, and comprises a house-looking transportation mechanism, a house-looking protection mechanism, a mobile telescopic mechanism, a property database and a cloud service platform, and is characterized in that:

the house-watching transport mechanism comprises a transport unmanned aerial vehicle, a first camera, a connecting base, a connecting lock catch and an alarm unit, wherein the transport unmanned aerial vehicle is stored in the warehouse and used for transporting the protective frame; the first camera is arranged at the outer position of the transport unmanned aerial vehicle and used for shooting an environmental image around the transport unmanned aerial vehicle; the connecting base is arranged at the bottom of the transport unmanned aerial vehicle and is used for abutting against the connecting top cover; the connecting lock catch is arranged at the position of the connecting base and used for fixing the connecting top cover and the connecting base; the alarm unit is arranged at the outer position of the transport unmanned aerial vehicle and used for sending light and sound alarm information;

the house-watching protection mechanism comprises a protection frame, an isolation telescopic motor, an isolation telescopic column, a connecting top cover, a fixed locking groove and a second camera, wherein the isolation telescopic motor is arranged at the inner position of the side of the top end of the protection frame, is connected with the isolation telescopic column and is used for driving the isolation telescopic column connected with the isolation telescopic column to stretch; the isolation telescopic column is arranged at the side position of the top end of the protection frame and used for opening and closing the transportation space of the protection frame; the connecting top cover is arranged at the top of the protective frame and is used for being fixed with the connecting base; the fixed lock groove is arranged in the connecting top cover and used for being fixed with the connecting lock catch; the second camera is arranged at the outer position of the protective frame and used for shooting an environmental image around the protective frame;

the movable telescopic mechanism comprises a movable telescopic motor, a movable telescopic support, a movable motor and a roller group, wherein the movable telescopic motor is arranged at the inner position of the bottom end of the protective frame, is connected with the movable telescopic support and is used for driving the connected movable telescopic support to stretch; the movable telescopic support is respectively connected with the movable telescopic motor and the movable motor and used for driving the movable motor to stretch; the moving motor is arranged at the front end of the moving telescopic support column, is connected with the roller group and is used for driving the connected roller group to operate; the roller group is connected with the moving motor and is used for driving the protective frame to move;

the property database is used for information;

the cloud service platform comprises:

the wireless module is used for being wirelessly connected with the transportation unmanned aerial vehicle, the first camera, the connecting lock catch, the alarm unit, the isolation telescopic motor, the mobile motor, the user terminal, the householder terminal, the management department external equipment and the internet respectively;

the information receiving module is used for receiving information and/or requests and/or instructions;

the information extraction module is used for extracting the information and/or the request and/or the instruction contained in the specified information and/or request and/or instruction;

the data mining module is used for mining matched house information according to the house area interval, the house price interval, the house section demand and the house floor demand data;

the information transmission module is used for transmitting the specified information and/or request and/or instruction to the specified object;

the user acquisition module is used for acquiring selection information fed back by the user terminal;

the owner obtaining module is used for obtaining owner contact information matched with the second house information;

the reservation house-watching module is used for sending a house-watching reservation request to the matched house owner terminal according to the house owner contact information acquired by the house owner acquisition module;

the transportation binding module is used for binding or unbinding the user information with the transportation unmanned aerial vehicle which is idle in the warehouse and is closest to the electronic map;

the first shooting module is used for controlling the first camera to start or stop;

the transportation control module is used for controlling the transportation unmanned aerial vehicle to execute set operation according to the set steps;

the transportation telescopic module is used for controlling the isolation telescopic column in driving connection with the isolation telescopic motor to perform telescopic operation;

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

7. The intelligent service protection system based on property information data as claimed in claim 6, wherein the cloud service platform further comprises:

the movable telescopic module is used for controlling a movable telescopic strut which is in driving connection with a movable telescopic motor to perform telescopic operation;

the fixing control module is used for controlling the connecting lock catch and the fixing lock groove to be fixed or unfixed;

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

the mobile control module is used for controlling the roller group connected with the mobile motor to execute set operation according to the set steps;

and the first backup module is used for transmitting the image shot by the second camera to the designated position of the property data for backup storage.

8. The intelligent service protection system based on property information data as claimed in claim 6, wherein the cloud service platform further comprises:

the option transmission module is used for transmitting information containing the options to the user terminal;

and the address storage module is used for recording the address information signed by the contract.

9. The intelligent service protection system based on property information data as claimed in claim 6, wherein the cloud service platform further comprises:

and the second backup module is used for transmitting the information that the house information selected by the user is inconsistent with the actual house information to the house database for backup storage.

10. The intelligent service protection system based on property information data as claimed in claim 6, wherein the cloud service platform further comprises:

the positioning control module is used for controlling the starting or the closing of the positioning unit;

the alarm module is used for transmitting the image shot by the first camera, the image shot by the second camera, the positioning data obtained by the positioning unit and the second house information selected by the user to the alarm center;

and the alarm control module is used for controlling the alarm unit to be started or closed.

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