CN111210593A - Intelligent house protection method and system based on big data processing analysis - Google Patents

Abstract

A method and a system for protecting intelligent houses based on big data processing and analysis comprise the following steps: acquiring and recording city time information and analyzing whether night protection time exists, if so, controlling an infrared sensor to start and analyzing whether the body temperature of a baby area exceeds a first preset temperature, if so, controlling a protection cabin to open and controlling a monitoring camera to start shooting a monitoring image, controlling a lifting mechanism to drive the baby area to ascend and controlling a protection unmanned aerial vehicle to descend so as to enable the center of the protection cabin to correspond to the baby area, controlling a first fixing mechanism to extend out to be abutted and fixed with a first fixing groove and controlling a second fixing mechanism to extend out to be abutted and fixed with a second fixing groove, controlling an electric lock catch to be released from fixing with the lifting mechanism and controlling the protection cabin to be closed to enter a protection ventilation state, and controls the electric window to open, controls the protective unmanned aerial vehicle to fly out the protective bin from the electric window and go to a recorded hospital, and transmitting the flight rescue information to the guardian external equipment and transmitting the emergency information to the recorded hospital external equipment.

Description

Intelligent house protection method and system based on big data processing analysis

Technical Field

The invention relates to the field of infant protection, in particular to an intelligent house protection method and system based on big data processing and analysis.

Background

The basal body temperature of the infant is 36.9-37.5 ℃, the infant is the primary parent and the secondary parent, the care of the infant is inexperienced, the infant can catch a cold and have a fever if careless, and the infant is very unfavorable for the growth and development of the infant if the parents cannot find the fever in time and the fever time is too long or the fever temperature is too high.

However, how to combine together big data, unmanned aerial vehicle and baby monitoring protection, make in the regional baby's of real time monitoring baby body temperature information and after baby's body temperature surpasss the value of settlement after the settlement time, control baby region and rise and protect baby region through protection unmanned aerial vehicle and protection storehouse, then carry the baby through protection unmanned aerial vehicle and protection storehouse and go to the hospital position of record, inform baby guardian simultaneously, in order to inform baby's position, it is heavy to avoid the new hand head of a family to fall asleep, can't in time discover when the baby generates heat, thereby cause the irreversible damage of baby to be the problem that needs to solve at present urgently.

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 house protection method and system based on big data processing and analysis, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

a smart house protection method based on big data processing analysis comprises the following steps:

s1, acquiring and recording time information of the city in real time and analyzing whether the protection time is at night in real time according to the acquired time information;

s2, if yes, controlling an infrared sensor arranged at the outer position of the unmanned aerial vehicle to start to acquire a thermal imaging picture of the infant area in real time, and analyzing whether the human body temperature of the infant area exceeds a first preset temperature or not in real time according to the thermal imaging picture;

s3, if yes, controlling a protection bin arranged below a protection unmanned aerial vehicle hung at the top end of the house to be opened and controlling a monitoring camera arranged at the external position of the protection unmanned aerial vehicle to start to capture a monitoring image in real time;

s4, controlling a lifting mechanism arranged in the inner position of the bed body baby area to drive the baby area to ascend, and controlling the protection unmanned aerial vehicle to descend according to the monitoring image so that the center of the lower protection bin corresponds to the baby area;

s5, controlling a first fixing mechanism arranged at the inner position of the protection bin to stretch out to be abutted and fixed with a first fixing groove of the infant area and controlling a second fixing mechanism arranged at the inner position of the lateral side of the infant area to stretch out to be abutted and fixed with a second fixing groove of the protection bin;

s6, controlling the electric lock catch at the bottom end of the infant area to be released from the front end of the lifting mechanism, controlling the protection bin to be closed to enter a protection ventilating state, and controlling an electric window arranged in the house to be opened;

and S7, controlling the protection unmanned aerial vehicle to fly out the protection cabin from the electric window and go to the recorded hospital position according to the monitoring image, and sending flight rescue information to the bound guardian external equipment and sending emergency information to the recorded hospital external equipment.

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

s60, controlling the starting of oxygen supply equipment arranged inside the unmanned aerial vehicle to supply oxygen to the protection cabin through an oxygen supply port arranged at the top end of the protection cabin and controlling the starting of exhaust equipment arranged on the side wall of the protection cabin to slowly exhaust air inside the protection cabin;

s61, controlling the first constant temperature equipment arranged on the inner wall of the protection cabin to start and keep the temperature inside the protection cabin constant to a second preset temperature in real time.

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

s70, controlling the telescopic rotating mechanism arranged at the inner position of the lateral side of the infant area to extend out to abut against the rotating groove in the protection bin and controlling the first fixing mechanism to completely retract;

and S71, controlling the second fixing mechanism to completely contract and controlling the telescopic rotating mechanism to drive the infant area to enter a shaking mode.

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

s72, controlling a loudspeaker arranged in the protection bin to play cradle music and controlling a night vision camera arranged in the protection bin to start to capture images of the baby in the protection bin in real time;

and S73, transmitting the infant image to the bound guardian external equipment in real time, receiving the audio-video information acquired by the guardian external equipment in real time, and playing the acquired audio-video information through the loudspeaker and the display screen arranged at the top end of the protection cabin.

As a preferable mode of the present invention, in S2, the method further includes the steps of:

s20, acquiring infant body temperature information detected by an intelligent temperature sensing suit worn by an infant in an infant area in real time, and analyzing whether the human body temperature in the infant area exceeds a first preset temperature or not in real time according to the infant body temperature information and a thermal imaging diagram;

s21, if yes, analyzing whether the human body temperature in the infant area exceeds a second preset temperature in real time according to the infant body temperature information and the thermal imaging graph;

s22, if so, controlling a second constant temperature device arranged at the position of the water storage bin in the baby area to start to keep the temperature of the water in the water storage bin constant to a third preset temperature and controlling a water circulation device connected with the water storage bin to start to guide the warm water in the water storage bin into a cooling layer of the connected intelligent temperature sensing clothes through a circulation pipe to carry out warm water circulation cooling.

A big data processing analysis-based intelligent house protection system uses an intelligent house protection method based on big data processing analysis, and comprises a protection device, a baby device, a temperature control device and a processor;

the protection device comprises a protection unmanned aerial vehicle, an infrared sensor, a monitoring camera, a protection cabin, a switch door body, a first fixing mechanism, a second fixing groove, an electric window, oxygen supply equipment and an oxygen supply port, wherein the protection unmanned aerial vehicle is hung at the position of a roof; the infrared sensor is arranged at the outer position of the protective unmanned aerial vehicle and used for acquiring a thermal imaging picture of a bed body baby area; the monitoring camera is arranged at the outer position of the protective unmanned aerial vehicle and is used for shooting an environmental image around the protective unmanned aerial vehicle; the protection cabin is arranged at a position below the protection unmanned aerial vehicle and used for storing a baby area; the switch door body is arranged at the bottom of the protection bin and adopts a telescopic switch design for switching the protection bin; the first fixing mechanism is arranged at the inner position of the inner wall of the protection bin and used for abutting against and fixing the first fixing groove after being extended out; the second fixing groove is arranged on the inner wall of the protection bin and used for abutting against and fixing with the second fixing mechanism; the electric window is arranged at the window position of the house; the oxygen supply equipment is arranged in the protective unmanned aerial vehicle and used for supplying oxygen; the oxygen supply port is arranged at the top end of the protection cabin, is connected with oxygen supply equipment through an oxygen conduit and is used for guiding oxygen supplied by the oxygen supply equipment into the protection cabin;

the baby device comprises a lifting mechanism, a baby area, a second fixing mechanism, a first fixing groove, exhaust equipment, a telescopic rotating mechanism, a rotating groove, a loudspeaker, a night vision camera and a display screen, wherein the lifting mechanism is arranged at the inner position of the baby area planned on the bed body, is connected with the baby area through an electric lock catch and is used for driving the baby area to lift; the infant area is arranged in an infant placing area planned in the middle area of the bed body, and a protective net design is adopted for placing infants; the second fixing mechanism is arranged at the inner position of the lateral side of the baby area and used for abutting against and fixing the second fixing groove after being extended out; the first fixing groove is arranged at the side position of the baby area and used for providing a first fixing mechanism for abutting and fixing; the exhaust equipment is arranged at the inner position of the protection cabin and is used for slowly exhausting the air in the protection cabin; the telescopic rotating mechanism is arranged in the middle position of the lateral side of the baby area and used for abutting against the rotating groove after being extended out and providing a shaking state for the baby area; the rotary groove is arranged on the inner wall of the protection bin and used for providing a front end of the telescopic rotary mechanism to abut against; the loudspeaker is arranged in the protective bin and used for playing voice information; the night vision camera is arranged at the position inside the protection cabin and is used for shooting the baby image inside the protection cabin; the display screen is arranged at the top end of the protection cabin and used for displaying video information;

the temperature control device comprises a first constant temperature device, an intelligent temperature sensing garment, a water storage bin, a second constant temperature device, a water circulation device, a circulation pipe and a cooling layer, wherein the first constant temperature device is arranged at the inner position of the protection bin and is used for keeping the temperature inside the protection bin constant; the intelligent temperature sensing clothes are provided with various styles, and a sheet-shaped temperature sensor is arranged on the inner layer close to the baby and used for acquiring the body temperature information of the baby; the water storage bin is arranged at the inner position of the baby area and used for storing purified water; the second constant temperature equipment is arranged at the inner position of the water storage bin and is used for keeping the temperature of the purified water in the water storage bin constant; the water circulation equipment is respectively connected with the water storage bin and the circulating pipe and is used for performing water circulation on purified water in the water storage bin through the circulating pipe and the cooling layer; the circulating pipe is respectively connected with the water circulation equipment and the cooling layer and is used for guiding purified water into the cooling layer; the temperature reduction layer is arranged at the inner position of the intelligent temperature sensing clothes, is respectively connected with the circulating pipes at the two ends and is used for reducing the temperature of the infant;

the treater sets up in protection unmanned aerial vehicle internal position, the treater includes:

the wireless module is used for being wirelessly connected with the protective unmanned aerial vehicle, the infrared sensor, the monitoring camera, the switch door body, the first fixing mechanism, the electric window, the oxygen supply equipment, the lifting mechanism, the electric lock catch, the second fixing mechanism, the exhaust equipment, the telescopic rotating mechanism, the loudspeaker, the night vision camera, the display screen, the first constant temperature equipment, the intelligent temperature sensing clothes, the second constant temperature equipment, the water circulation equipment, the cooling layer, the external equipment of the infant guardian and the external equipment of the hospital respectively;

the time acquisition module is used for acquiring and recording time information of a city;

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

the infrared recognition module is used for controlling the infrared sensor to be started or closed;

the protection switch module is used for controlling the switch door body to open or close the protection bin;

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

the area lifting module is used for controlling the lifting mechanism to drive the baby area to execute the set lifting operation according to the set steps;

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

the first fixing module is used for controlling the first fixing mechanism to execute the set fixing operation with the first fixing groove according to the set steps;

the second fixing module is used for controlling the second fixing mechanism to execute the set fixing operation with the second fixing groove according to the set steps;

the fixing releasing module is used for controlling the electric lock catch to execute set operation according to set steps;

the electric window control module is used for controlling the electric window to execute set switch operation according to set steps;

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

As a preferred mode of the present invention, the processor further includes:

the oxygen supply control module is used for controlling the starting or the closing of the oxygen supply equipment;

the exhaust control module is used for controlling the starting or the closing of the exhaust equipment;

and the first constant temperature module is used for controlling the first constant temperature equipment to keep the temperature inside the protection bin constant to a second preset temperature.

As a preferred mode of the present invention, the processor further includes:

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

As a preferred mode of the present invention, the processor further includes:

the audio-video control module is used for controlling the loudspeaker and the display screen to execute the set audio-video playing operation according to the set steps;

and the night vision shooting module is used for controlling the night vision camera to be started or closed.

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

the temperature sensing detection module is used for controlling the intelligent temperature sensing clothes to execute the set operation of detecting the body temperature of the infant according to the set steps;

the second constant temperature module is used for controlling second constant temperature equipment to keep the temperature of the purified water in the water storage bin constant to a fourth preset temperature;

and the water circulation module is used for controlling the water circulation equipment to execute the set water circulation cooling operation according to the set steps.

The invention realizes the following beneficial effects:

1. after intelligent house protection system starts, acquire regional baby's of baby thermal imaging picture and real-time identification baby's body temperature information in real time, after baby's body temperature exceeded first preset temperature, control elevating system raised the baby region and control protection unmanned aerial vehicle utilization the protection storehouse of opening with baby region corresponds, then control protection storehouse and baby region are fixed each other and will protect the storehouse and close, control oxygen supply equipment opens and control exhaust apparatus opens after protection storehouse is closed, then control protection unmanned aerial vehicle goes to the hospital position of record, inform baby guardian simultaneously to inform the baby position, it is heavy to avoid the new hand head of a family to fall asleep, can't in time notice when the baby generates heat, thereby cause baby irreversible damage.

2. After the protection bin is closed, the telescopic rotating mechanism for controlling the baby area extends out to be abutted and fixed with the rotating groove of the protection bin and controls the first fixing mechanism and the second fixing mechanism to be completely contracted, then the telescopic rotating mechanism is controlled to drive the baby area to enter a shaking mode, and meanwhile, the loudspeaker is controlled to play cradle curves; if the baby is in the waking state, the baby image is transmitted to the guardian external equipment, and the image and sound acquired by the guardian external equipment are transmitted to the display screen of the protection cabin to be played.

3. If the baby is in the high fever state after, the temperature of the inside temperature of control water storage storehouse is constant temperature to the third and is predetermine the temperature, then control water circulating equipment starts and lets the inside warm water of water storage storehouse flow in the cooling layer of the intelligent temperature sensing clothes that the baby dressed to let baby's body temperature reduce.

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 monitoring and protection according to an exemplary embodiment of the present invention;

fig. 2 is a flowchart of a ventilation control method according to an example of the present invention;

FIG. 3 is a flow chart of a baby area shaking method provided by one example of the present invention;

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

FIG. 5 is a flow chart of a cooling method according to an exemplary embodiment of the present invention;

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

fig. 7 is a schematic diagram of a protection drone and a protection cabin provided by one example of the present invention;

FIG. 8 is a schematic cross-sectional view of a protection cabin and an infant area provided by one example of the present invention;

FIG. 9 is a schematic view, partially in section, of a protection cabin and an infant area according to an example of the present invention;

fig. 10 is a schematic view of a lifting mechanism and an infant area provided in 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. 1-2, 6-8, and 10.

Specifically, the embodiment provides an intelligent house protection method based on big data processing analysis, and the method includes the following steps:

and S1, acquiring and recording time information of the city in real time and analyzing whether the protection time is at night in real time according to the acquired time information.

In S1, specifically, after the unmanned aerial vehicle is in the standby state, the time acquisition module included in the processor acquires and records time information of a city in real time, where the time acquisition module records city information of the unmanned aerial vehicle; after the time acquisition module acquires the time information of the recorded city, the information analysis module contained in the processor analyzes whether the protection time at night exists in real time according to the time information acquired by the time acquisition module; wherein, the night guard time is preferably set to 23: 00-6: 00.

s2, if yes, controlling an infrared sensor arranged at the outer position of the unmanned aerial vehicle to start to acquire a thermal imaging diagram of the infant area in real time, and analyzing whether the human body temperature of the infant area exceeds a first preset temperature or not in real time according to the thermal imaging diagram.

In S2, after the information analysis module analyzes that the current city time is in the night protection time, the infrared recognition module contained in the processor controls the infrared sensor arranged at the external position of the unmanned protection vehicle to start to acquire the infrared information of the infant region in real time and generate a thermal imaging image of the acquired infrared information, and when the unmanned protection vehicle is hung at the top end of a house, the infrared sensor of the unmanned protection vehicle faces the infant region of the bed body; after the infrared recognition module generates the thermal image, the information analysis module analyzes whether the human body temperature in the infant area exceeds a first preset temperature in real time according to the thermal image, wherein the first preset temperature is preferably 38.5 ℃.

S3, if so, controlling a protection cabin arranged below the protection unmanned aerial vehicle hung on the top end of the house to open and controlling a monitoring camera arranged at the external position of the protection unmanned aerial vehicle to start to capture monitoring images in real time.

In S3, specifically after information analysis module analysis goes out that the regional human body temperature of baby has and surpasss first preset temperature, the protection switch module control that the treater contains hangs and opens the protection storehouse in the switch door body complete contraction in the protection storehouse that the protection unmanned aerial vehicle below on house top set up, simultaneously, the control that the treater contains is absorb module control set up in the surveillance camera of protection unmanned aerial vehicle outside position starts to absorb the surveillance image in real time, wherein the surveillance image is the environmental image around the protection unmanned aerial vehicle that the surveillance camera absorbed.

S4, controlling a lifting mechanism arranged in the inner position of the bed body baby area to drive the baby area to ascend and controlling the unmanned protection plane to descend according to the monitoring image so as to enable the center of the lower protection bin to correspond to the baby area.

In S4, specifically after the protection cabin is opened and the monitoring camera is started to complete, the region lifting module control that the processor contains is arranged on the folding telescopic rod connected with the driving motor drive of the region internal position of the bed body and the baby and is passed through the electric lock catch to completely lift the baby region, after the baby region is lifted, the unmanned aerial vehicle control module that the processor contains controls the unmanned aerial vehicle to descend the protection unmanned aerial vehicle to lower the protection cabin center region and correspond to the baby region, thereby wrapping the baby region through the protection cabin.

S5, controlling the first fixing mechanism arranged at the inner position of the protection cabin to stretch out to be abutted against and fixed with the first fixing groove of the baby area, and controlling the second fixing mechanism arranged at the inner position of the lateral side of the baby area to stretch out to be abutted against and fixed with the second fixing groove of the protection cabin.

In S5, specifically be in the protection storehouse with the baby is regional to correspond after accomplishing, the first fixed module control that the treater contained the first telescopic link that the inside first flexible motor drive of protection storehouse both sides inner wall was connected stretch out with the baby is regional first fixed slot is contradicted fixedly, simultaneously, the fixed module control of second that the treater contained set up in the baby regional both sides inside the second telescopic link that the flexible motor drive of second is connected stretch out with the second fixed slot of protection storehouse is contradicted fixedly to be fixed in the protection storehouse with the baby region.

S6, controlling the electric lock catch at the bottom end of the baby area to be released from the front end of the lifting mechanism and controlling the protection bin to be closed to enter a protection ventilation state, and controlling the electric window arranged inside the house to be opened.

In S6, specifically be fixed in the protection storehouse at the baby region after, the electronic hasp and the elevating system front end of the regional bottom of module control baby are removed fixedly to the fixed electronic hasp that removes that the treater contains, remove fixed back at electronic hasp and elevating system, regional lift module control the folding telescopic link that driving motor drive is connected contracts completely, accomplishes the back at folding telescopic link shrink, protection switch module control the switch door body in protection storehouse stretches out completely and closes the protection storehouse, simultaneously the electronic window control module control that the treater contains sets up in the inside electronic window in house and opens to supply protection unmanned aerial vehicle to fly away from the house.

And S7, controlling the protection unmanned aerial vehicle to fly out the protection cabin from the electric window and go to the recorded hospital position according to the monitoring image, and sending flight rescue information to the bound guardian external equipment and sending emergency information to the recorded hospital external equipment.

In S7, specifically, after the protection cabin is closed and the electric window is opened, the unmanned aerial vehicle control module controls the protection unmanned aerial vehicle to fly out the protection cabin from the electric window according to the monitoring image and then to go to the recorded hospital position, wherein the processor records the hospital position and the contact information of the city; meanwhile, the information transmission module contained in the processor sends flight rescue information to the bound guardian external equipment, namely, the guardian of the baby is informed to transport the heated baby to the hospital, and meanwhile, the information transmission module sends emergency information to the hospital external equipment corresponding to the recorded hospital contact information so as to inform corresponding hospital staff to carry out emergency fever abatement.

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

s60, control sets up the oxygen supply equipment start-up in unmanned aerial vehicle inside and supplies oxygen to the protection storehouse through setting up in the oxygen suppliment mouth on protection storehouse top and control sets up the exhaust apparatus start-up that protects the storehouse lateral wall position slowly with the inside air escape in protection storehouse.

Specifically, close the completion back in the protection storehouse, the oxygen suppliment control module control that the treater contains sets up and supplies with oxygen to the protection storehouse through setting up in the oxygen suppliment mouth on protection storehouse top in the inside oxygen suppliment equipment start-up of unmanned aerial vehicle, simultaneously the exhaust control module control that the treater contains sets up and starts the air escape that will protect the storehouse inside slowly in the exhaust equipment start-up of protection storehouse lateral wall position, and exhaust equipment exhaust velocity and supply with equipment supply oxygen speed and correspond.

S61, controlling the first constant temperature equipment arranged on the inner wall of the protection cabin to start and keep the temperature inside the protection cabin constant to a second preset temperature in real time.

Specifically, when oxygen supply equipment and exhaust apparatus opened, the first constant temperature module control that the treater contained sets up the first constant temperature equipment that protects the storehouse inner wall position and starts in real time with the inside temperature constant temperature of protection storehouse to the second preset temperature, wherein, the second preset temperature is preferred 26 ℃ in this embodiment.

Example two

Referring to fig. 3-4, fig. 6-9.

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

and S70, controlling the telescopic rotating mechanism arranged at the inner position of the lateral side of the infant area to extend out to abut against the rotating groove in the protection bin and controlling the first fixing mechanism to completely retract.

Concretely, when protection unmanned aerial vehicle carries the regional flight of baby through the protection storehouse, the flexible rotating module control that the treater contained sets up the third telescopic link that the flexible motor drive of the third of the regional both sides internal position of baby is connected and stretches out rotation axis and conflict pole to let the inside swivelling chute conflict of conflict pole and protection storehouse, after conflict pole and swivelling chute is accomplished, first fixed module control the first telescopic link that first flexible motor drive is connected contracts completely.

And S71, controlling the second fixing mechanism to completely contract and controlling the telescopic rotating mechanism to drive the infant area to enter a shaking mode.

Specifically, when the first telescopic link is retracted, the second telescopic link driven and connected by the second telescopic motor is controlled by the second fixing module to be retracted completely, and after the first telescopic link and the second telescopic link are both retracted completely, the third telescopic link driven and connected by the rotating shaft is controlled by the telescopic rotating module to drive the baby area to swing and enter a swinging mode, so that the baby in the baby area is pacified.

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

and S72, controlling a loudspeaker arranged in the protection bin to play cradle music and controlling a night vision camera arranged in the protection bin to start to shoot the baby image in the protection bin in real time.

Specifically, after the baby area enters a shaking mode, the audio-video control module contained in the processor controls the loudspeaker arranged in the protection bin to play cradle music, and meanwhile the night vision shooting module contained in the processor controls the night vision camera arranged in the protection bin to start to shoot baby images in the protection bin in real time, and the night vision camera has a night vision effect.

And S73, transmitting the infant image to the bound guardian external equipment in real time, receiving the audio-video information acquired by the guardian external equipment in real time, and playing the acquired audio-video information through the loudspeaker and the display screen arranged at the top end of the protection cabin.

Specifically, after the night vision camera is started, the information transmission module transmits the infant images to the bound guardian external device in real time, meanwhile, the information analysis module analyzes whether the infant is in a waking state or not according to the infant images, after the information analysis module analyzes that the infant is in the waking state, the audio-video control module receives audio-video information acquired by the guardian external device in real time, the acquired audio-video information is played through the loudspeaker and a display screen arranged at the top end of the protection cabin, and when the audio-video of the infant guardian is played, the loudspeaker is controlled to cancel the play of the cradle music.

EXAMPLE III

Referring to fig. 5-6, fig. 8-9.

Specifically, this embodiment is substantially the same as the first embodiment, except that in S2, the method further includes the following steps:

s20, acquiring infant body temperature information detected by the intelligent temperature sensing clothes worn by the infants in the infant area in real time, and analyzing whether the human body temperature in the infant area exceeds a first preset temperature or not in real time according to the infant body temperature information and a thermal imaging diagram.

Specifically, after the infrared recognition module generates the thermal imaging image, the temperature detection module contained in the processor acquires the infant body temperature information of the intelligent temperature sensing suit worn by the infant in the infant area and detected in real time, and after the temperature detection module acquires the body temperature information of the infant, the information analysis module analyzes whether the human body temperature in the infant area exceeds a first preset temperature or not according to the infant body temperature information and the thermal imaging image in real time.

And S21, if yes, analyzing whether the human body temperature in the infant area exceeds a third preset temperature in real time according to the infant body temperature information and the thermal imaging graph.

Specifically, after the information analysis module analyzes that the human body temperature in the infant area exceeds a first preset temperature, the information analysis module analyzes whether the human body temperature in the infant area exceeds a third preset temperature in real time according to the infant body temperature information and the thermal imaging graph, wherein the third preset temperature is preferably 39 ℃.

S22, if so, controlling a second constant temperature device arranged at the position of the water storage bin in the baby area to start to keep the temperature of the water in the water storage bin constant to a fourth preset temperature and controlling a water circulation device connected with the water storage bin to start to guide the warm water in the water storage bin into a cooling layer of the connected intelligent temperature sensing clothes through a circulation pipe to carry out warm water circulation cooling.

Specifically, after the information analysis module analyzes that the human body temperature in the infant area exceeds a third preset temperature, the second constant temperature module included in the processor controls a second constant temperature device arranged at a position of a water storage bin in the infant area to start to keep the temperature of the water in the water storage bin constant to a fourth preset temperature, wherein the fourth preset temperature is preferably 29-32 ℃ in the embodiment; after the inside pure water temperature in water storage bin reaches the fourth and predetermines the temperature, the hydrologic cycle equipment that the hydrologic cycle module control water storage bin that the treater contains connects passes through the water inlet and passes through the leading-in circulating pipe of the inside pure water in water storage bin, the cooling layer import that passes through intelligent temperature sensing clothes by the circulating pipe gets into the cooling layer, discharge to the circulating pipe that the exit region is connected by the export on cooling layer again, get into in the water storage bin by the circulating pipe that the exit region is connected again, thereby realize the inside pure water in water storage bin through the circulating pump get into with cooling layer access connection circulating pipe, by with cooling layer access connection circulating pipe get into the cooling layer and by the cooling layer entering with cooling layer exit linkage's circulating pipe, then get into the water storage bin by the circulating pipe with.

Example four

As shown with reference to fig. 6-10.

Specifically, the embodiment provides an intelligent house protection system based on big data processing analysis, and an intelligent house protection method based on big data processing analysis is used, and comprises a protection device, a baby device, a temperature control device and a processor;

the protection device comprises a protection unmanned aerial vehicle, an infrared sensor, a monitoring camera, a protection cabin, a switch door body, a first fixing mechanism, a second fixing groove, an electric window, oxygen supply equipment and an oxygen supply port, wherein the protection unmanned aerial vehicle is hung at the position of a roof; the infrared sensor is arranged at the outer position of the protective unmanned aerial vehicle and used for acquiring a thermal imaging picture of a bed body baby area; the monitoring camera is arranged at the outer position of the protective unmanned aerial vehicle and is used for shooting an environmental image around the protective unmanned aerial vehicle; the protection cabin is arranged at a position below the protection unmanned aerial vehicle and used for storing a baby area; the switch door body is arranged at the bottom of the protection bin and adopts a telescopic switch design for switching the protection bin; the first fixing mechanism is arranged at the inner position of the inner wall of the protection bin and used for abutting against and fixing the first fixing groove after being extended out; the second fixing groove is arranged on the inner wall of the protection bin and used for abutting against and fixing with the second fixing mechanism; the electric window is arranged at the window position of the house; the oxygen supply equipment is arranged in the protective unmanned aerial vehicle and used for supplying oxygen; the oxygen supply port is arranged at the top end of the protection cabin, is connected with oxygen supply equipment through an oxygen conduit and is used for guiding oxygen supplied by the oxygen supply equipment into the protection cabin;

the baby device comprises a lifting mechanism, a baby area, a second fixing mechanism, a first fixing groove, exhaust equipment, a telescopic rotating mechanism, a rotating groove, a loudspeaker, a night vision camera and a display screen, wherein the lifting mechanism is arranged at the inner position of the baby area planned on the bed body, is connected with the baby area through an electric lock catch and is used for driving the baby area to lift; the infant area is arranged in an infant placing area planned in the middle area of the bed body, and a protective net design is adopted for placing infants; the second fixing mechanism is arranged at the inner position of the lateral side of the baby area and used for abutting against and fixing the second fixing groove after being extended out; the first fixing groove is arranged at the side position of the baby area and used for providing a first fixing mechanism for abutting and fixing; the exhaust equipment is arranged at the inner position of the protection cabin and is used for slowly exhausting the air in the protection cabin; the telescopic rotating mechanism is arranged in the middle position of the lateral side of the baby area and used for abutting against the rotating groove after being extended out and providing a shaking state for the baby area; the rotary groove is arranged on the inner wall of the protection bin and used for providing a front end of the telescopic rotary mechanism to abut against; the loudspeaker is arranged in the protective bin and used for playing voice information; the night vision camera is arranged at the position inside the protection cabin and is used for shooting the baby image inside the protection cabin; the display screen is arranged at the top end of the protection cabin and used for displaying video information;

the temperature control device comprises a first constant temperature device, an intelligent temperature sensing garment, a water storage bin, a second constant temperature device, a water circulation device, a circulation pipe and a cooling layer, wherein the first constant temperature device is arranged at the inner position of the protection bin and is used for keeping the temperature inside the protection bin constant; the intelligent temperature sensing clothes are provided with various styles, and a sheet-shaped temperature sensor is arranged on the inner layer close to the baby and used for acquiring the body temperature information of the baby; the water storage bin is arranged at the inner position of the baby area and used for storing purified water; the second constant temperature equipment is arranged at the inner position of the water storage bin and is used for keeping the temperature of the purified water in the water storage bin constant; the water circulation equipment is respectively connected with the water storage bin and the circulating pipe and is used for performing water circulation on purified water in the water storage bin through the circulating pipe and the cooling layer; the circulating pipe is respectively connected with the water circulation equipment and the cooling layer and is used for guiding purified water into the cooling layer; the temperature reduction layer is arranged at the inner position of the intelligent temperature sensing clothes, is respectively connected with the circulating pipes at the two ends and is used for reducing the temperature of the infant;

the treater sets up in protection unmanned aerial vehicle internal position, the treater includes:

the wireless module is used for being wirelessly connected with the protective unmanned aerial vehicle, the infrared sensor, the monitoring camera, the switch door body, the first fixing mechanism, the electric window, the oxygen supply equipment, the lifting mechanism, the electric lock catch, the second fixing mechanism, the exhaust equipment, the telescopic rotating mechanism, the loudspeaker, the night vision camera, the display screen, the first constant temperature equipment, the intelligent temperature sensing clothes, the second constant temperature equipment, the water circulation equipment, the cooling layer, the external equipment of the infant guardian and the external equipment of the hospital respectively;

the time acquisition module is used for acquiring and recording time information of a city;

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

the infrared recognition module is used for controlling the infrared sensor to be started or closed;

the protection switch module is used for controlling the switch door body to open or close the protection bin;

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

the area lifting module is used for controlling the lifting mechanism to drive the baby area to execute the set lifting operation according to the set steps;

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

the first fixing module is used for controlling the first fixing mechanism to execute the set fixing operation with the first fixing groove according to the set steps;

the second fixing module is used for controlling the second fixing mechanism to execute the set fixing operation with the second fixing groove according to the set steps;

the fixing releasing module is used for controlling the electric lock catch to execute set operation according to set steps;

the electric window control module is used for controlling the electric window to execute set switch operation according to set steps;

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

As a preferred mode of the present invention, the processor further includes:

the oxygen supply control module is used for controlling the starting or the closing of the oxygen supply equipment;

the exhaust control module is used for controlling the starting or the closing of the exhaust equipment;

and the first constant temperature module is used for controlling the first constant temperature equipment to keep the temperature inside the protection bin constant to a second preset temperature.

As a preferred mode of the present invention, the processor further includes:

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

As a preferred mode of the present invention, the processor further includes:

the audio-video control module is used for controlling the loudspeaker and the display screen to execute the set audio-video playing operation according to the set steps;

and the night vision shooting module is used for controlling the night vision camera to be started or closed.

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

the temperature sensing detection module is used for controlling the intelligent temperature sensing clothes to execute the set operation of detecting the body temperature of the infant according to the set steps;

the second constant temperature module is used for controlling second constant temperature equipment to keep the temperature of the purified water in the water storage bin constant to a fourth preset temperature;

and the water circulation module is used for controlling the water circulation equipment to execute the set water circulation cooling operation according to the set steps.

The first fixing mechanism comprises a first telescopic motor and a first telescopic rod, the first telescopic motor is arranged at the inner position of the inner wall of the protection bin and is connected with the first telescopic rod, and the first telescopic motor is used for driving the connected first telescopic rod to stretch; the first telescopic rod is connected with the first telescopic motor and used for abutting against the first fixing groove after extending out.

The lifting mechanism comprises a driving motor and a folding telescopic rod, wherein the driving motor is arranged at the position inside the infant area planned by the bed body, is connected with the folding telescopic rod and is used for driving the connected folding telescopic rod to stretch; the folding telescopic rod is connected with the driving motor and the baby area respectively and used for driving the connected baby area to lift.

The second fixing mechanism comprises a second telescopic motor and a second telescopic rod, wherein the second telescopic motor is arranged at the inner positions of two sides of the infant area, is connected with the second telescopic rod and is used for driving the connected second telescopic rod to stretch; and the second telescopic rod is connected with a second telescopic motor and is used for abutting against the second fixing groove after being stretched out.

The telescopic rotating mechanism comprises a third telescopic motor, a third telescopic rod, a rotating shaft and a touch rod, wherein the third telescopic motor is arranged in the middle inner positions of two sides of the infant area, is connected with the third telescopic rod and is used for driving the connected third telescopic rod to stretch; the third telescopic rod is respectively connected with a third telescopic motor and the rotating shaft and is used for driving the connected rotating shaft to stretch; the rotating shaft is respectively connected with the third telescopic rod and the abutting rod and is used for driving the connected third telescopic rod to drive the infant area to shake; the touch rod is arranged at the front end of the rotating shaft and used for being abutted against the rotating groove.

Wherein the water circulation device may be a circulation pump.

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.

Claims (10)

1. A smart home protection method based on big data processing and analysis is characterized by comprising the following steps:

s1, acquiring and recording time information of the city in real time and analyzing whether the protection time is at night in real time according to the acquired time information;

s2, if yes, controlling an infrared sensor arranged at the outer position of the unmanned aerial vehicle to start to acquire a thermal imaging picture of the infant area in real time, and analyzing whether the human body temperature of the infant area exceeds a first preset temperature or not in real time according to the thermal imaging picture;

s3, if yes, controlling a protection bin arranged below a protection unmanned aerial vehicle hung at the top end of the house to be opened and controlling a monitoring camera arranged at the external position of the protection unmanned aerial vehicle to start to capture a monitoring image in real time;

s4, controlling a lifting mechanism arranged in the inner position of the bed body baby area to drive the baby area to ascend, and controlling the protection unmanned aerial vehicle to descend according to the monitoring image so that the center of the lower protection bin corresponds to the baby area;

s5, controlling a first fixing mechanism arranged at the inner position of the protection bin to stretch out to be abutted and fixed with a first fixing groove of the infant area and controlling a second fixing mechanism arranged at the inner position of the lateral side of the infant area to stretch out to be abutted and fixed with a second fixing groove of the protection bin;

s6, controlling the electric lock catch at the bottom end of the infant area to be released from the front end of the lifting mechanism, controlling the protection bin to be closed to enter a protection ventilating state, and controlling an electric window arranged in the house to be opened;

and S7, controlling the protection unmanned aerial vehicle to fly out the protection cabin from the electric window and go to the recorded hospital position according to the monitoring image, and sending flight rescue information to the bound guardian external equipment and sending emergency information to the recorded hospital external equipment.

2. The intelligent house protection method based on big data processing analysis according to claim 1, wherein in S6, the method further comprises the following steps:

s60, controlling the starting of oxygen supply equipment arranged inside the unmanned aerial vehicle to supply oxygen to the protection cabin through an oxygen supply port arranged at the top end of the protection cabin and controlling the starting of exhaust equipment arranged on the side wall of the protection cabin to slowly exhaust air inside the protection cabin;

s61, controlling the first constant temperature equipment arranged on the inner wall of the protection cabin to start and keep the temperature inside the protection cabin constant to a second preset temperature in real time.

3. The intelligent house protection method based on big data processing analysis according to claim 1, wherein in S7, the method further comprises the following steps:

s70, controlling the telescopic rotating mechanism arranged at the inner position of the lateral side of the infant area to extend out to abut against the rotating groove in the protection bin and controlling the first fixing mechanism to completely retract;

and S71, controlling the second fixing mechanism to completely contract and controlling the telescopic rotating mechanism to drive the infant area to enter a shaking mode.

4. The intelligent house protection method based on big data processing analysis according to claim 1, wherein after S71, the method further comprises the following steps:

s72, controlling a loudspeaker arranged in the protection bin to play cradle music and controlling a night vision camera arranged in the protection bin to start to capture images of the baby in the protection bin in real time;

and S73, transmitting the infant image to the bound guardian external equipment in real time, receiving the audio-video information acquired by the guardian external equipment in real time, and playing the acquired audio-video information through the loudspeaker and the display screen arranged at the top end of the protection cabin.

5. The intelligent house protection method based on big data processing analysis according to claim 1, wherein in S2, the method further comprises the following steps:

s20, acquiring infant body temperature information detected by an intelligent temperature sensing suit worn by an infant in an infant area in real time, and analyzing whether the human body temperature in the infant area exceeds a first preset temperature or not in real time according to the infant body temperature information and a thermal imaging diagram;

s21, if yes, analyzing whether the human body temperature in the infant area exceeds a second preset temperature in real time according to the infant body temperature information and the thermal imaging graph;

s22, if so, controlling a second constant temperature device arranged at the position of the water storage bin in the baby area to start to keep the temperature of the water in the water storage bin constant to a third preset temperature and controlling a water circulation device connected with the water storage bin to start to guide the warm water in the water storage bin into a cooling layer of the connected intelligent temperature sensing clothes through a circulation pipe to carry out warm water circulation cooling.

6. An intelligent house protection system based on big data processing analysis, which uses the intelligent house protection method based on big data processing analysis of any one of claims 1-5, comprising a protection device, a baby device, a temperature control device and a processor, wherein:

the protection device comprises a protection unmanned aerial vehicle, an infrared sensor, a monitoring camera, a protection cabin, a switch door body, a first fixing mechanism, a second fixing groove, an electric window, oxygen supply equipment and an oxygen supply port, wherein the protection unmanned aerial vehicle is hung at the position of a roof; the infrared sensor is arranged at the outer position of the protective unmanned aerial vehicle and used for acquiring a thermal imaging picture of a bed body baby area; the monitoring camera is arranged at the outer position of the protective unmanned aerial vehicle and is used for shooting an environmental image around the protective unmanned aerial vehicle; the protection cabin is arranged at a position below the protection unmanned aerial vehicle and used for storing a baby area; the switch door body is arranged at the bottom of the protection bin and adopts a telescopic switch design for switching the protection bin; the first fixing mechanism is arranged at the inner position of the inner wall of the protection bin and used for abutting against and fixing the first fixing groove after being extended out; the second fixing groove is arranged on the inner wall of the protection bin and used for abutting against and fixing with the second fixing mechanism; the electric window is arranged at the window position of the house; the oxygen supply equipment is arranged in the protective unmanned aerial vehicle and used for supplying oxygen; the oxygen supply port is arranged at the top end of the protection cabin, is connected with oxygen supply equipment through an oxygen conduit and is used for guiding oxygen supplied by the oxygen supply equipment into the protection cabin;

the baby device comprises a lifting mechanism, a baby area, a second fixing mechanism, a first fixing groove, exhaust equipment, a telescopic rotating mechanism, a rotating groove, a loudspeaker, a night vision camera and a display screen, wherein the lifting mechanism is arranged at the inner position of the baby area planned on the bed body, is connected with the baby area through an electric lock catch and is used for driving the baby area to lift; the infant area is arranged in an infant placing area planned in the middle area of the bed body, and a protective net design is adopted for placing infants; the second fixing mechanism is arranged at the inner position of the lateral side of the baby area and used for abutting against and fixing the second fixing groove after being extended out; the first fixing groove is arranged at the side position of the baby area and used for providing a first fixing mechanism for abutting and fixing; the exhaust equipment is arranged at the inner position of the protection cabin and is used for slowly exhausting the air in the protection cabin; the telescopic rotating mechanism is arranged in the middle position of the lateral side of the baby area and used for abutting against the rotating groove after being extended out and providing a shaking state for the baby area; the rotary groove is arranged on the inner wall of the protection bin and used for providing a front end of the telescopic rotary mechanism to abut against; the loudspeaker is arranged in the protective bin and used for playing voice information; the night vision camera is arranged at the position inside the protection cabin and is used for shooting the baby image inside the protection cabin; the display screen is arranged at the top end of the protection cabin and used for displaying video information;

the temperature control device comprises a first constant temperature device, an intelligent temperature sensing garment, a water storage bin, a second constant temperature device, a water circulation device, a circulation pipe and a cooling layer, wherein the first constant temperature device is arranged at the inner position of the protection bin and is used for keeping the temperature inside the protection bin constant; the intelligent temperature sensing clothes are provided with various styles, and a sheet-shaped temperature sensor is arranged on the inner layer close to the baby and used for acquiring the body temperature information of the baby; the water storage bin is arranged at the inner position of the baby area and used for storing purified water; the second constant temperature equipment is arranged at the inner position of the water storage bin and is used for keeping the temperature of the purified water in the water storage bin constant; the water circulation equipment is respectively connected with the water storage bin and the circulating pipe and is used for performing water circulation on purified water in the water storage bin through the circulating pipe and the cooling layer; the circulating pipe is respectively connected with the water circulation equipment and the cooling layer and is used for guiding purified water into the cooling layer; the temperature reduction layer is arranged at the inner position of the intelligent temperature sensing clothes, is respectively connected with the circulating pipes at the two ends and is used for reducing the temperature of the infant;

the treater sets up in protection unmanned aerial vehicle internal position, the treater includes:

the wireless module is used for being wirelessly connected with the protective unmanned aerial vehicle, the infrared sensor, the monitoring camera, the switch door body, the first fixing mechanism, the electric window, the oxygen supply equipment, the lifting mechanism, the electric lock catch, the second fixing mechanism, the exhaust equipment, the telescopic rotating mechanism, the loudspeaker, the night vision camera, the display screen, the first constant temperature equipment, the intelligent temperature sensing clothes, the second constant temperature equipment, the water circulation equipment, the cooling layer, the external equipment of the infant guardian and the external equipment of the hospital respectively;

the time acquisition module is used for acquiring and recording time information of a city;

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

the infrared recognition module is used for controlling the infrared sensor to be started or closed;

the protection switch module is used for controlling the switch door body to open or close the protection bin;

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

the area lifting module is used for controlling the lifting mechanism to drive the baby area to execute the set lifting operation according to the set steps;

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

the first fixing module is used for controlling the first fixing mechanism to execute the set fixing operation with the first fixing groove according to the set steps;

the second fixing module is used for controlling the second fixing mechanism to execute the set fixing operation with the second fixing groove according to the set steps;

the fixing releasing module is used for controlling the electric lock catch to execute set operation according to set steps;

the electric window control module is used for controlling the electric window to execute set switch operation according to set steps;

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

7. The intelligent housing protection system based on big data processing analysis according to claim 6, wherein the processor further comprises:

the oxygen supply control module is used for controlling the starting or the closing of the oxygen supply equipment;

the exhaust control module is used for controlling the starting or the closing of the exhaust equipment;

and the first constant temperature module is used for controlling the first constant temperature equipment to keep the temperature inside the protection bin constant to a second preset temperature.

8. The intelligent housing protection system based on big data processing analysis according to claim 6, wherein the processor further comprises:

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

9. The intelligent housing protection system based on big data processing analysis according to claim 6, wherein the processor further comprises:

the audio-video control module is used for controlling the loudspeaker and the display screen to execute the set audio-video playing operation according to the set steps;

and the night vision shooting module is used for controlling the night vision camera to be started or closed.

10. The intelligent house protection system based on big data processing analysis according to claim 6, wherein the processor further comprises:

the temperature sensing detection module is used for controlling the intelligent temperature sensing clothes to execute the set operation of detecting the body temperature of the infant according to the set steps;

the second constant temperature module is used for controlling second constant temperature equipment to keep the temperature of the purified water in the water storage bin constant to a fourth preset temperature;

and the water circulation module is used for controlling the water circulation equipment to execute the set water circulation cooling operation according to the set steps.

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