CN111413879A - Automatic service method and system based on data analysis and smart home - Google Patents

Abstract

An automatic service method and system based on data analysis and smart home, comprising: receiving a hanging request of a user terminal and extracting the type information of the curtain track contained in the hanging request; controlling a corresponding suspension mechanism to extend out and controlling a weight sensor to start to acquire weight information in real time, controlling a first camera to start to capture a first image in real time and analyzing whether the curtain control shell is suspended, and binding the curtain control shell with a user terminal and sharing the authority of the curtain control shell with the user terminal if the curtain control shell is suspended; and after the alarm clock mode is entered, the alarm clock of the user terminal is read and the moving roller mechanism is controlled to drive the curtain control shell to pull the curtain open on the curtain track after the alarm clock arrives, weather information is read, and if the weather is cloudy, the illuminating lamp is controlled to be started and the electric cardan shaft is controlled to drive the illuminating lamp to face the user.

Description

Automatic service method and system based on data analysis and smart home

Technical Field

The invention relates to the field of intelligent home furnishing, in particular to an automatic service method and system based on data analysis and intelligent home furnishing.

Background

The curtain is made of cloth, hemp, yarn, aluminum sheet, wood chip, metal material, etc. and has the functions of shading sun, insulating heat and regulating indoor light. The fabric curtain is divided into cotton gauze, polyester fabric, polyester-cotton blended fabric, cotton-hemp blended fabric, non-woven fabric and the like according to the material, different materials, textures, colors, patterns and the like are integrated to form the fabric curtain with different styles, and the fabric curtain is matched with indoor designs with different styles. With the development of curtains, it has become an indispensable indoor decoration for a living room with perfect combination of functionality and decoration.

Therefore, how to combine together big data and (window) curtain for after obtaining user's demand and hanging and placing the completion, automatically for opening and shutting of user control (window) curtain and combine together (window) curtain on-off mechanism and alarm clock according to user's setting according to user's demand, the supplementary user gets up, can provide the safety monitoring in house, the supplementary (window) curtain function that opens and shuts for the user simultaneously, and does not need complicated installation (window) curtain controlgear, and it is the problem that needs to solve at present urgently directly just can become automatic (window) curtain with arbitrary (window) curtain.

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 automatic service method and system based on data analysis and smart home, which can effectively solve the problems in the background art.

The technical scheme is as follows:

an automatic service method based on data analysis and smart home, the method comprises the following steps:

s1, receiving a hanging request sent by a user terminal keeping a connection relation in real time and extracting the type information of the curtain track contained in the received hanging request;

s2, controlling a hanging mechanism which is arranged at the upper position in the curtain control shell and corresponds to the extracted curtain runway type information to stretch out, and controlling a weight sensor which is arranged in the curtain control shell and connected with the hanging mechanism to start to acquire weight information in real time;

s3, controlling a first camera arranged at the outer position of the curtain control shell to start to capture a first image in real time and analyzing whether the curtain control shell is completely hung or not according to the first image and weight information;

s4, if yes, binding the curtain control shell with the user terminal, delivering the control authority of the curtain control shell to the user terminal, and sharing the alarm clock reading authority of the user terminal with the curtain control shell;

s5, when the user terminal controls the curtain control shell to move, reading the moving direction and distance information contained in the control signal sent by the user terminal and controlling a moving roller mechanism which is arranged on the side of the hanging mechanism and is abutted against the curtain track to start to drive the curtain control shell to move to the direction and distance of the moving direction and distance information in the position of the curtain track;

s6, when the user terminal controls the curtain control shell to enter an alarm clock mode, reading alarm clock information set by the user terminal, controlling the movable roller mechanism to start to drive the curtain control shell to move at the position of the curtain track to pull the curtain open after the alarm clock of the user terminal arrives, and reading weather information;

and S7, if the weather is cloudy, the illuminating lamp arranged at the position outside the curtain control shell is controlled to be turned on, and the illuminating lamp which is arranged at the position outside the curtain control shell and is driven by the electric universal shaft to be connected faces the face position of the user in the house according to the first image.

As a preferable mode of the present invention, in S3, the method further includes the steps of:

s30, controlling the auxiliary shell arranged at the rear position of the curtain control shell and the curtain control shell to release the fixed state, and controlling a second camera arranged at the outer position of the auxiliary shell to start to capture a second image in real time;

and S31, analyzing the hanging state of the curtain control shell according to the connection state of the curtain control shell and the auxiliary shell, the first image, the second image and the weight information.

As a preferred mode of the present invention, the method further comprises the steps of:

s10, analyzing the state information of the user house window in real time according to the second image and analyzing whether a human body is positioned outside the window and has a destructive action in real time according to the state information of the window;

s11, if the curtain control shell exists and is in the night time, the illuminating lamp of the curtain control shell is controlled to be turned on, and the illuminating lamp which is connected with the curtain control shell in a driving mode through the electric universal shaft is controlled to face the face position of a user in the house according to the first image;

and S12, controlling a loudspeaker arranged at the lower part of the curtain control shell to give out an alarm sound and transmitting the second image to the connected user terminal and the alarm center in real time.

As a preferred mode of the present invention, after S4, the method further includes the steps of:

s40, controlling a gyroscope arranged in the curtain control shell to start to acquire curtain pulling information in real time and analyzing whether a curtain where the curtain control shell is located is pulled or not in real time according to the curtain pulling information;

and S41, if so, analyzing the pulling direction of the curtain according to the curtain pulling information and controlling the movable roller mechanism of the curtain control shell to start to drive the curtain control shell to move to the direction consistent with the analyzed pulling direction at the position of the curtain track so as to assist a user to pull the curtain.

As a preferred mode of the present invention, after S3, the method further includes the steps of:

s32, receiving electric quantity information fed back by the curtain control shell in real time and analyzing whether the electric quantity of the curtain control shell is lower than a preset electric quantity or not in real time according to the electric quantity information;

and S33, if yes, controlling the movable roller mechanism of the curtain control shell to start to drive the curtain control shell to move to the nearest wireless charging point at the curtain runway position and stop at the wireless charging point to enter a conflict charging state.

An automatic service system based on data analysis and smart home, which uses the automatic service method based on data analysis and smart home of any one of claims 1 to 5, and comprises a curtain device, a suspension device, a charging device and a processor;

the curtain device comprises a curtain control shell, a first camera, an auxiliary shell, a second camera, a fixing buckle, a clamping groove, an electric universal shaft, a lighting lamp, a gyroscope and a loudspeaker, wherein the curtain control shell is arranged at the position of a groove of a first crease area of the curtain and used for controlling the curtain to open and close; the first camera is arranged at the position outside the curtain control shell and used for shooting an environment image in a room where the curtain is located; the auxiliary shell is arranged at a position facing a window from the exterior of the curtain and is fixed with the curtain control shell; the second camera is arranged at the outer position of the auxiliary shell and used for shooting the environmental influence of the window area of the room where the curtain is located; the fixed buckle is arranged at the inner position of the side of the window control shell and is used for abutting against and fixing the window control shell with the clamping groove; the clamping groove is arranged on the inner surface of the auxiliary shell and used for abutting against and fixing the fixing buckle; the electric universal shaft is arranged at the outer position of the curtain control shell, is respectively connected with the curtain control shell and the illuminating lamp and is used for driving the connected illuminating lamp to rotate; the illuminating lamp is arranged at the front end of the electric universal shaft and used for providing an illuminating function; the gyroscope is arranged in the curtain control shell and used for detecting the angular motion of the curtain control shell; the loudspeaker is arranged below the curtain control shell and used for playing voice information;

the suspension device comprises a telescopic motor, a telescopic rod, a suspension mechanism, a weight sensor and a movable roller mechanism, wherein the telescopic motor is arranged at an inner position above the auxiliary shell, is connected with the telescopic rod and is used for driving the connected telescopic rod to stretch; the telescopic rod is respectively connected with the telescopic motor and the suspension mechanism and is used for driving the connected suspension mechanism to stretch; the hanging mechanism is arranged according to the type of the curtain track and is used for abutting against the curtain track; the weight sensor is arranged at the connecting position of the telescopic rod and the suspension mechanism and used for acquiring weight information; the movable roller mechanism is arranged at the position where the suspension mechanism is abutted against the curtain track and is used for driving the curtain control shell to move at the position of the curtain track;

the charging device comprises wireless charging points, a collision wireless charging base and a collision wireless charging receiver, wherein the wireless charging points are uniformly arranged at the top of the area where the curtain is located and used for placing the collision wireless charging base; the conflict wireless heavy belt base is arranged at the position of a wireless charging point, is connected with a power supply system of a house and is used for conflicting with the conflict wireless charging receiver for power supply; the collision wireless charging receiver is arranged at the top of the hanging mechanism, is connected with a storage battery inside the curtain control shell and is used for collision charging with the collision wireless charging base;

the treater sets up in the inside position of (window) curtain control casing, the treater includes:

the connecting module is used for being in wired connection with the curtain control shell, the first camera, the fixed buckle, the electric universal shaft, the illuminating lamp, the gyroscope, the loudspeaker, the telescopic motor, the weight sensor and the movable roller mechanism respectively, and is in wireless connection with the second camera, the user terminal and the alarm center respectively;

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

the information extraction module is used for extracting information and/or requests and/or instructions contained in the specified information;

the suspension telescopic module is used for controlling a telescopic rod in driving connection with a telescopic motor to execute set telescopic operation according to set steps;

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

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

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

the binding module is used for controlling the specified object to be bound with other objects;

the authority processing module is used for processing the control authority of the curtain control shell and acquiring the reading authority of the user terminal;

the control reading module is used for reading information contained in a control signal sent by the user terminal;

the movement control module is used for controlling the movable roller mechanism to execute the set curtain control shell movement operation according to the set steps;

the illumination control module is used for controlling the illumination lamp to be turned on or off;

and the electric universal module is used for controlling an illuminating lamp in driving connection with the electric universal shaft to execute set angle adjustment operation according to the set steps.

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

the fixing control module is used for controlling the fixing buckle to execute the set fixing operation according to the set steps;

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

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

the alarm module is used for controlling the loudspeaker to be started or closed;

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

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

and the motion detection module is used for controlling the gyroscope to be started or closed.

The invention realizes the following beneficial effects:

1. after the automatic service system is started, a user terminal is identified to send a hanging request and extend to a corresponding hanging mechanism to extend out according to the hanging request, then the hanging state of a curtain control shell is identified, after the curtain control shell is hung, the curtain control shell and the user terminal are bound with each other and share control authority, when the user demands the curtain control shell to move to draw and close the curtain, the direction and the distance of the pulling of the user demand are identified, a movable roller mechanism is controlled according to the corresponding direction and the distance to drive the curtain control shell to correspondingly move at the position of a curtain runway to automatically draw and close the curtain, if the user demands enter an alarm clock mode, an alarm clock of the user terminal is read, after the alarm clock arrives, the movable roller mechanism is controlled to drive the curtain control shell to correspondingly move to draw and open the curtain at the position of the curtain runway and control an illuminating lamp to be turned on cloudy day, and the illuminating, thereby assisting the user in getting up; the invention can directly change any curtain into an automatic curtain without complex installation of curtain control equipment.

2. After the curtain control shell and the auxiliary shell are hung and fixed mutually, a second camera of the auxiliary shell shoots regional images of a user window in real time and analyzes state information of the window, after the user window is analyzed to have a human body with destructive actions, if the time at night is long, the illuminating lamp is opened through the illuminating lamp, the position of the illuminating lamp facing the face of the user is warned for the user through the electric universal shaft, and then corresponding second images are sent to the user terminal and the warning center for warning.

3. When the curtain is pulled by a user, the moving roller mechanism is controlled to drive the curtain control shell to correspondingly move at the position of the curtain track according to the pulling direction of the user so as to assist the user in pulling the curtain.

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 an automated service method provided by one example of the present invention;

FIG. 2 is a flow chart of a hang complete identification method provided by one example of the present invention;

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

FIG. 4 is a flow chart of a method for assisting window covering pull-in according to one embodiment of the present invention;

fig. 5 is a flow chart of an automatic wireless charging control method according to an example of the present invention;

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

FIG. 7 is a side schematic view of a shade control housing according to one example of the present invention;

fig. 8 is a partial schematic view of a region of a mattress having a curtain control housing according to one example of the 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, fig. 5-8.

Specifically, the embodiment provides an automatic service method based on data analysis and smart home, and the method includes the following steps:

and S1, receiving the hanging request sent by the user terminal maintaining the connection relation in real time and extracting the type information of the curtain track contained in the received hanging request.

In S1, after the curtain control housing 10 is started, the information receiving module 41 in the processor 4 receives, in real time, the hanging request sent by the user terminal that maintains the connection relationship, and after the information receiving module 41 receives the hanging request sent by the user terminal, the information extracting module 42 included in the processor 4 extracts the curtain runway type information included in the hanging request received by the information receiving module 41; the curtain track is divided into a rod body and a track.

And S2, controlling the hanging mechanism 22 which is arranged at the upper position in the curtain control shell 10 and corresponds to the extracted curtain runway type information to extend out, and controlling the weight sensor 23 which is arranged in the curtain control shell 10 and connected with the hanging mechanism 22 to start to acquire weight information in real time.

In S2, specifically, after the information extraction module 42 extracts the curtain runway type information, the suspension extension module 43 included in the processor 4 controls the extension rod 21 connected to the extension motor 20 disposed at the upper position inside the curtain control housing 10 to extend the suspension mechanism 22 corresponding to the curtain runway type information, if the curtain runway is a rod body, the corresponding extension motor 20 is controlled to drive the extension rod 21 connected to the extension motor 20 to extend the hook-type suspension mechanism 22, and if the curtain runway is a track, the corresponding extension motor 20 is controlled to drive the connection extension rod 21 to extend the track roller-type suspension mechanism 22; after the corresponding type of hanging mechanism 22 is completely extended, the weight recognition module 44 included in the processor 4 controls the weight sensor 23 disposed inside the curtain control housing 10 and connected to the hanging mechanism 22 to start to acquire weight information in real time.

S3, controlling the first camera 11 disposed at the external position of the curtain control housing 10 to start to capture a first image in real time and analyzing whether the curtain control housing 10 is completely hung according to the first image and the weight information.

At S3, specifically, after the suspension mechanism 22 is completely extended and the weight sensor 23 is completely started, the first camera module 45 included in the processor 4 controls the first camera 11 disposed at the position outside the window shade control housing 10 to start to capture a first image in real time, where the first image is an image of an environment inside a room where the window shade control housing 10 is located and captured by the first camera 11; after the first camera 11 is started, the information analysis module 46 included in the processor 4 analyzes whether the curtain control housing 10 is completely hung according to the weight information and the first image in real time, that is, whether the weight acquired by the weight sensor 23 is close to the weight of the curtain control housing 10 is analyzed, and it is analyzed according to the first image that the curtain control housing 10 is located at the top of the room and is not in a shaking state.

And S4, if yes, binding the curtain control shell 10 with the user terminal, delivering the control authority of the curtain control shell 10 to the user terminal, and sharing the alarm clock reading authority of the user terminal with the curtain control shell 10.

In S4, after the information analysis module 46 analyzes that the curtain control housing 10 is completely hung, the binding module 47 included in the processor 4 binds the curtain control housing 10 with the user terminal, and after the binding is completed, the authority processing module 48 included in the processor 4 delivers the control authority of the curtain control housing 10 to the binding user terminal (after delivery, the processor 4 can still control the electronic device included in the curtain control housing 10), and obtains the alarm clock and weather reading authority of the user terminal.

S5, when the user terminal controls the curtain control housing 10 to move, the user terminal reads the moving direction and distance information contained in the control signal sent by the user terminal and controls the moving roller mechanism 24 disposed at the side of the hanging mechanism 22 and abutted against the curtain track to start to drive the curtain control housing 10 to move in the direction and distance where the moving direction and distance information are consistent at the curtain track position.

In S5, specifically, when the user terminal controls the curtain control housing 10 to move, the control reading module 49 included in the processor 4 reads the moving direction and distance information included in the control signal sent by the user terminal, and then the movement control module 50 included in the processor 4 controls the roller set, which is disposed below the side of the hanging mechanism 22 and is in driving connection with the driving motor inside the abutting housing abutting against the curtain runway, to drive the curtain control housing 10 to move in the curtain runway position in the direction and distance consistent with the moving direction and distance information; for example, if the user needs to pull the curtain 20 cm apart, the curtain control housing 10 moves 20 cm in the curtain pulling direction to pull the curtain 20 cm apart.

And S6, when the user terminal controls the curtain control shell 10 to enter an alarm clock mode, reading alarm clock information set by the user terminal, controlling the movable roller mechanism 24 to start to drive the curtain control shell 10 to move at the position of the curtain runway to pull the curtain open after the alarm clock of the user terminal arrives, and reading weather information.

In S6, after the user terminal controls the curtain control housing 10 to enter the alarm clock mode, the processor 4 reads the alarm clock information set by the user terminal, and when the information analysis module 46 analyzes that the alarm clock set by the user terminal arrives, the movement control module 50 controls the roller set connected by the driving motor to drive the curtain control housing 10 to move in the curtain track position toward the curtain opening direction, so as to completely open the curtain, and simultaneously the processor 4 reads the current weather information.

And S7, if the weather is cloudy, the illuminating lamp 17 arranged at the position outside the curtain control shell 10 is controlled to be turned on, and the illuminating lamp 17 which is arranged at the position outside the curtain control shell 10 and is driven by the electric universal shaft 16 to be connected is controlled to face the face position of the user in the house according to the first image.

At S7, specifically, after the information analysis module 46 analyzes that the current weather is cloudy, the lighting control module 51 included in the processor 4 controls the lighting lamp 17 disposed at the position outside the window shade control housing 10 to be turned on, and the electric universal module 52 included in the processor 4 controls the electric universal shaft 16 disposed at the position outside the window shade control housing 10 to drive the connected lighting lamp 17 to face the position of the user' S face inside the house according to the first image.

As a preferred mode of the present invention, after S3, the method further includes the steps of:

and S32, receiving the electric quantity information fed back by the curtain control shell 10 in real time and analyzing whether the electric quantity of the curtain control shell 10 is lower than a preset electric quantity or not in real time according to the electric quantity information.

Specifically, after the curtain control housing 10 is completely suspended, the information receiving module 41 receives the electric quantity information fed back by the curtain control housing 10 in real time, and after the information receiving module 41 receives the electric quantity information, the information analyzing module 46 analyzes whether the electric quantity of the curtain control housing 10 is lower than a preset electric quantity in real time according to the electric quantity information, wherein in this embodiment, the preset electric quantity is 30% of the total electric quantity, that is, whether the electric quantity of the curtain control housing 10 is lower than 30% of the total electric quantity is analyzed.

And S33, if yes, controlling the movable roller mechanism 24 of the curtain control shell 10 to start to drive the curtain control shell 10 to move to the nearest wireless charging point 30 at the curtain runway position and stop at the wireless charging point 30 to enter an interference charging state.

Specifically, after the information analysis module 46 analyzes that the electric quantity of the curtain control housing 10 is lower than 30% of the total electric quantity, the movement control module 50 controls the driving motor inside the collision housing of the curtain control housing 10 to drive the roller train to drive the curtain control housing 10 to move to the nearest wireless charging point 30 at the curtain runway position and stop the wireless charging point 30 to enter a collision charging state, and when the storage battery of the curtain control housing 10 is fully charged, the wireless charging point returns to the position before movement.

Example two

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

Specifically, this embodiment is substantially the same as the first embodiment, except that in S3, the method further includes the following steps:

s30, controlling the auxiliary housing 12 disposed behind the curtain control housing 10 to release the fixed state from the curtain control housing 10, and controlling the second camera 13 disposed outside the auxiliary housing 12 to start capturing the second image in real time.

Specifically, before the curtain control housing 10 is hung, the fixing control module 53 included in the processor 4 controls the fixing buckle 14 disposed at the rear position of the curtain control housing 10 to be in a contact fixing state with the slot 15 of the auxiliary housing 12, so that the curtain control housing 10 is separated from the auxiliary housing 12, and after the fixing buckle 14 is in a contact fixing state with the slot 15, the second camera 13 disposed at the external position of the auxiliary housing 12 is controlled by the second shooting module 54 included in the processor 4 to start to shoot a second image in real time, where the second image is an environmental image of a window area of a room where the auxiliary housing 12 is located and shot by the second camera 13; the auxiliary housing 12 is internally provided with a storage battery, and the external of the auxiliary housing is provided with a solar panel, and the solar panel is connected with the storage battery arranged in the auxiliary housing 12.

S31, analyzing the hanging state of the curtain control housing 10 according to the connection state between the curtain control housing 10 and the auxiliary housing 12, the first image, the second image and the weight information.

Specifically, after the curtain control housing 10 and the auxiliary housing 12 are separated and the second camera 13 is started, the information analysis module 46 analyzes the hanging state of the curtain control housing 10 according to the connection state of the curtain control housing 10 and the auxiliary housing 12, the first image, the second image and the weight information, that is, whether the user has the curtain control housing 10 abutted against and fixed to the slot 15 of the auxiliary housing 12 through the fixing buckle 14 is analyzed, whether the curtain control housing 10 and the auxiliary housing 12 are located at the top of the house or not is analyzed according to the first image and the second image, and whether the weight acquired by the weight sensor 23 is close to the weight of the curtain control housing 10 is not analyzed in a shaking state.

As a preferred mode of the present invention, the method further comprises the steps of:

and S10, analyzing the state information of the user house window in real time according to the second image and analyzing whether a human body is positioned outside the window and has a destructive action in real time according to the state information of the window.

Specifically, after the curtain control housing 10 and the auxiliary housing 12 are fixed to each other and suspended, the information analysis module 46 analyzes the house window status information of the user in real time according to the second image, and then analyzes whether there is a human body outside the window and a destructive action according to the house window status information, wherein the destructive action includes but is not limited to an attack, a window glass destruction, a house interior entering, and the like, which violate a law.

And S11, if the curtain control shell 10 exists and is in the night time, the illuminating lamp 17 of the curtain control shell 10 is controlled to be turned on, and the electric universal shaft 16 of the curtain control shell 10 is controlled according to the first image to drive the connected illuminating lamp 17 to face the face position of the user in the house.

Specifically, if the information analysis module 46 analyzes that there is a human body outside the window and there is a damage action, and the state is 20: 00-7: after 00 hours, the lighting control module 51 controls the lighting lamp 17 of the curtain control housing 10 to be turned on, and simultaneously the electric universal module 52 controls the electric universal shaft 16 of the curtain control housing 10 to drive the connected lighting lamp 17 to face the face position of the user in the house according to the first image; if the time is in other time period, go to step S12.

And S12, controlling the loudspeaker 19 arranged at the lower part of the curtain control shell 10 to send out an alarm sound and transmitting the second image to the connected user terminal and the alarm center in real time.

Specifically, after the information illuminating lamp 17 is turned on, the alarm module 55 included in the processor 4 controls the speaker 19 disposed at the lower position of the curtain control housing 10 to emit an alarm sound, and the information transmission module 56 included in the processor 4 transmits the second image to the connected user terminal and the alarm center in real time.

EXAMPLE III

Referring to fig. 4, shown in fig. 6-8.

Specifically, this embodiment is substantially the same as the first embodiment, except that in this embodiment, after S4, the method further includes the following steps:

s40, controlling the gyroscope 18 arranged in the curtain control shell 10 to start to acquire curtain pulling information in real time and analyzing whether the curtain where the curtain control shell 10 is located is pulled or not according to the curtain pulling information.

Specifically, after the curtain control housing 10 is completely suspended and the authority sharing is completed, the motion detection module 57 controls the gyroscope 18 disposed inside the curtain control housing 10 to start to obtain curtain pulling information in real time, and then the information analysis module 46 analyzes whether the curtain in which the curtain control housing 10 is located is pulled in real time according to the curtain pulling information.

And S41, if yes, analyzing the pulling direction of the curtain according to the curtain pulling information and controlling the movable roller mechanism 24 of the curtain control shell 10 to start to drive the curtain control shell 10 to move to the direction consistent with the analyzed pulling direction at the position of the curtain track so as to assist the user to pull the curtain.

Specifically, after the information analysis module 46 analyzes that the curtain where the curtain control housing 10 is located is pulled, the information analysis module 46 analyzes the pulling direction of the curtain according to the curtain pulling information, and after the analysis is completed, the movement control module 50 controls the driving motor driving roller set inside the abutting housing to drive the curtain control housing 10 to move in the direction consistent with the analyzed pulling direction at the position of the curtain track, so as to assist the user in pulling the curtain.

Example four

As shown with reference to fig. 6-8.

Specifically, the present embodiment provides an automatic service system based on data analysis and smart home, which uses an automatic service method based on data analysis and smart home, including a curtain device 1, a suspension device 2, a charging device 3, and a processor 4;

the curtain device 1 comprises a curtain control shell 10, a first camera 11, an auxiliary shell 12, a second camera 13, a fixed buckle 14, a clamping groove 15, an electric universal shaft 16, an illuminating lamp 17, a gyroscope 18 and a loudspeaker 19, wherein the curtain control shell 10 is arranged at the groove position of a first crease area of the curtain and used for controlling the curtain to open and close; the first camera 11 is arranged at an outer position of the curtain control shell 10 and is used for shooting an environment image in a room where the curtain is located; the auxiliary shell 12 is arranged at a position facing a window from the exterior of the curtain and is fixed with the curtain control shell 10; the second camera 13 is arranged at the outer position of the auxiliary shell 12 and is used for shooting the environmental influence of the window area of the room where the curtain is located; the fixed buckle 14 is arranged at the inner position of the side of the window control shell and is used for abutting against and fixing with the clamping groove 15; the clamping groove 15 is arranged on the inner surface of the auxiliary shell 12 and used for abutting against and fixing the fixing buckle 14; the electric universal shaft 16 is arranged at the outer position of the curtain control shell 10, is respectively connected with the curtain control shell 10 and the illuminating lamp 17, and is used for driving the connected illuminating lamp 17 to rotate; the illuminating lamp 17 is arranged at the front end position of the electric universal shaft 16 and is used for providing an illuminating function; the gyroscope 18 is arranged in the curtain control shell 10 and used for detecting the angular motion of the curtain control shell 10; the loudspeaker 19 is arranged below the curtain control shell 10 and used for playing voice information;

the suspension device 2 comprises a telescopic motor 20, a telescopic rod 21, a suspension mechanism 22, a weight sensor 23 and a movable roller mechanism 24, wherein the telescopic motor 20 is arranged at an inner position above the auxiliary shell 12, is connected with the telescopic rod 21 and is used for driving the connected telescopic rod 21 to stretch; the telescopic rod 21 is respectively connected with the telescopic motor 20 and the suspension mechanism 22 and used for driving the connected suspension mechanism 22 to stretch; the hanging mechanism 22 is arranged according to the type of the curtain track and is used for abutting against the curtain track; the weight sensor 23 is arranged at the connecting position of the telescopic rod 21 and the suspension mechanism 22 and is used for acquiring weight information; the movable roller mechanism 24 is arranged at the position where the hanging mechanism 22 abuts against the curtain track and is used for driving the curtain control shell 10 to move at the position of the curtain track;

the charging device 3 comprises wireless charging points 30, a collision wireless charging base 31 and a collision wireless charging receiver 32, wherein the wireless charging points 30 are uniformly arranged at the top of the area where the curtain is located and used for placing the collision wireless charging base 31; the base of the conflict wireless heavy belt is arranged at the position of the wireless charging point 30, is connected with a power supply system of a house and is used for conflicting with the conflict wireless charging receiver 32 for power supply; the interference wireless charging receiver 32 is arranged at the top of the hanging mechanism 22, is connected with a storage battery inside the curtain control shell 10, and is used for interference charging with the interference wireless charging base 31;

the processor 4 is disposed at an internal position of the curtain control housing 10, and the processor 4 includes:

the connecting module 40 is used for being respectively in wired connection with the curtain control shell 10, the first camera 11, the fixed buckle 14, the electric universal shaft 16, the illuminating lamp 17, the gyroscope 18, the loudspeaker 19, the telescopic motor 20, the weight sensor 23 and the movable roller mechanism 24, and is respectively in wireless connection with the second camera 13, the user terminal and the alarm center;

an information receiving module 41, configured to receive information and/or requests and/or instructions;

an information extraction module 42, configured to extract information and/or requests and/or instructions included in the specific information;

the suspension telescopic module 43 is used for controlling the telescopic rod 21 which is driven and connected by the telescopic motor 20 to execute the set telescopic operation according to the set steps;

the weight recognition module 44 is used for controlling the weight sensor 23 to be started or closed;

the first shooting module 45 is used for controlling the first camera 11 to be started or closed;

an information analysis module 46 for processing and analyzing information according to the specified information;

a binding module 47, configured to control the specified object to be bound with other objects;

the authority processing module 48 is used for processing the control authority of the curtain control shell 10 and acquiring the reading authority of the user terminal;

a control reading module 49, configured to read information included in a control signal sent by the user terminal;

a movement control module 50 for controlling the movement roller mechanism 24 to execute the set movement operation of the curtain control housing 10 according to the set steps;

the illumination control module 51 is used for controlling the illumination lamp 17 to be turned on or off;

and the electric universal module 52 is used for controlling the illuminating lamp 17 which is in driving connection with the electric universal shaft 16 to execute the set angle adjustment operation according to the set steps.

As a preferred mode of the present invention, the processor 4 further includes:

a fixing control module 53, configured to control the fixing buckle 14 to perform a set fixing operation according to a set procedure;

and the second shooting module 54 is used for controlling the second camera 13 to be started or closed.

As a preferred mode of the present invention, the processor 4 further includes:

an alarm module 55 for controlling the speaker 19 to be turned on or off;

and an information transmission module 56 for transmitting the specified information and/or request and/or instruction to the specified object.

As a preferred mode of the present invention, the processor 4 further includes:

and a motion detection module 57 for controlling the gyroscope 18 to be turned on or off.

The hanging mechanism 22 is divided into a hook type and a track roller type, and the hook type is adopted if the curtain track is a rod body, and the track roller type is adopted if the curtain track is a track.

The movable roller mechanism 24 comprises an abutting shell, a driving motor and a roller group, and the abutting shell is arranged at the position where the suspension mechanism 22 abuts against the curtain track; the driving motor is arranged in the abutting shell, is connected with the roller group and is used for driving the connected roller group to operate; the roller set is disposed below the abutting shell and abuts against the curtain track, and is used for driving the abutting shell to drive the hanging mechanism 22 and then drive the curtain control shell 10 to move at the position of the curtain track.

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 (9)

1. An automatic service method based on data analysis and smart home is characterized by comprising the following steps:

s1, receiving a hanging request sent by a user terminal keeping a connection relation in real time and extracting the type information of the curtain track contained in the received hanging request;

s2, controlling a hanging mechanism which is arranged at the upper position in the curtain control shell and corresponds to the extracted curtain runway type information to stretch out, and controlling a weight sensor which is arranged in the curtain control shell and connected with the hanging mechanism to start to acquire weight information in real time;

s3, controlling a first camera arranged at the outer position of the curtain control shell to start to capture a first image in real time and analyzing whether the curtain control shell is completely hung or not according to the first image and weight information;

s4, if yes, binding the curtain control shell with the user terminal, delivering the control authority of the curtain control shell to the user terminal, and sharing the alarm clock reading authority of the user terminal with the curtain control shell;

s5, when the user terminal controls the curtain control shell to move, reading the moving direction and distance information contained in the control signal sent by the user terminal and controlling a moving roller mechanism which is arranged on the side of the hanging mechanism and is abutted against the curtain track to start to drive the curtain control shell to move to the direction and distance of the moving direction and distance information in the position of the curtain track;

s6, when the user terminal controls the curtain control shell to enter an alarm clock mode, reading alarm clock information set by the user terminal, controlling the movable roller mechanism to start to drive the curtain control shell to move at the position of the curtain track to pull the curtain open after the alarm clock of the user terminal arrives, and reading weather information;

and S7, if the weather is cloudy, the illuminating lamp arranged at the position outside the curtain control shell is controlled to be turned on, and the illuminating lamp which is arranged at the position outside the curtain control shell and is driven by the electric universal shaft to be connected faces the face position of the user in the house according to the first image.

2. The automatic service method based on data analysis and smart home as claimed in claim 1, wherein in S3, the method further comprises the following steps:

s30, controlling the auxiliary shell arranged at the rear position of the curtain control shell and the curtain control shell to release the fixed state, and controlling a second camera arranged at the outer position of the auxiliary shell to start to capture a second image in real time;

and S31, analyzing the hanging state of the curtain control shell according to the connection state of the curtain control shell and the auxiliary shell, the first image, the second image and the weight information.

3. The automatic service method based on data analysis and smart home as claimed in claim 2, wherein the method further comprises the steps of:

s10, analyzing the state information of the user house window in real time according to the second image and analyzing whether a human body is positioned outside the window and has a destructive action in real time according to the state information of the window;

s11, if the curtain control shell exists and is in the night time, the illuminating lamp of the curtain control shell is controlled to be turned on, and the illuminating lamp which is connected with the curtain control shell in a driving mode through the electric universal shaft is controlled to face the face position of a user in the house according to the first image;

and S12, controlling a loudspeaker arranged at the lower part of the curtain control shell to give out an alarm sound and transmitting the second image to the connected user terminal and the alarm center in real time.

4. The automatic service method based on data analysis and smart home as claimed in claim 1, wherein after S4, the method further comprises the following steps:

s40, controlling a gyroscope arranged in the curtain control shell to start to acquire curtain pulling information in real time and analyzing whether a curtain where the curtain control shell is located is pulled or not in real time according to the curtain pulling information;

and S41, if so, analyzing the pulling direction of the curtain according to the curtain pulling information and controlling the movable roller mechanism of the curtain control shell to start to drive the curtain control shell to move to the direction consistent with the analyzed pulling direction at the position of the curtain track so as to assist a user to pull the curtain.

5. The automatic service method based on data analysis and smart home as claimed in claim 1, wherein after S3, the method further comprises the following steps:

s32, receiving electric quantity information fed back by the curtain control shell in real time and analyzing whether the electric quantity of the curtain control shell is lower than a preset electric quantity or not in real time according to the electric quantity information;

and S33, if yes, controlling the movable roller mechanism of the curtain control shell to start to drive the curtain control shell to move to the nearest wireless charging point at the curtain runway position and stop at the wireless charging point to enter a conflict charging state.

6. An automatic service system based on data analysis and smart home, which uses the automatic service method based on data analysis and smart home of any one of claims 1 to 5, and comprises a curtain device, a suspension device, a charging device and a processor, and is characterized in that:

the curtain device comprises a curtain control shell, a first camera, an auxiliary shell, a second camera, a fixing buckle, a clamping groove, an electric universal shaft, a lighting lamp, a gyroscope and a loudspeaker, wherein the curtain control shell is arranged at the position of a groove of a first crease area of the curtain and used for controlling the curtain to open and close; the first camera is arranged at the position outside the curtain control shell and used for shooting an environment image in a room where the curtain is located; the auxiliary shell is arranged at a position facing a window from the exterior of the curtain and is fixed with the curtain control shell; the second camera is arranged at the outer position of the auxiliary shell and used for shooting the environmental influence of the window area of the room where the curtain is located; the fixed buckle is arranged at the inner position of the side of the window control shell and is used for abutting against and fixing the window control shell with the clamping groove; the clamping groove is arranged on the inner surface of the auxiliary shell and used for abutting against and fixing the fixing buckle; the electric universal shaft is arranged at the outer position of the curtain control shell, is respectively connected with the curtain control shell and the illuminating lamp and is used for driving the connected illuminating lamp to rotate; the illuminating lamp is arranged at the front end of the electric universal shaft and used for providing an illuminating function; the gyroscope is arranged in the curtain control shell and used for detecting the angular motion of the curtain control shell; the loudspeaker is arranged below the curtain control shell and used for playing voice information;

the suspension device comprises a telescopic motor, a telescopic rod, a suspension mechanism, a weight sensor and a movable roller mechanism, wherein the telescopic motor is arranged at an inner position above the auxiliary shell, is connected with the telescopic rod and is used for driving the connected telescopic rod to stretch; the telescopic rod is respectively connected with the telescopic motor and the suspension mechanism and is used for driving the connected suspension mechanism to stretch; the hanging mechanism is arranged according to the type of the curtain track and is used for abutting against the curtain track; the weight sensor is arranged at the connecting position of the telescopic rod and the suspension mechanism and used for acquiring weight information; the movable roller mechanism is arranged at the position where the suspension mechanism is abutted against the curtain track and is used for driving the curtain control shell to move at the position of the curtain track;

the charging device comprises wireless charging points, a collision wireless charging base and a collision wireless charging receiver, wherein the wireless charging points are uniformly arranged at the top of the area where the curtain is located and used for placing the collision wireless charging base; the conflict wireless heavy belt base is arranged at the position of a wireless charging point, is connected with a power supply system of a house and is used for conflicting with the conflict wireless charging receiver for power supply; the collision wireless charging receiver is arranged at the top of the hanging mechanism, is connected with a storage battery inside the curtain control shell and is used for collision charging with the collision wireless charging base;

the treater sets up in the inside position of (window) curtain control casing, the treater includes:

the connecting module is used for being in wired connection with the curtain control shell, the first camera, the fixed buckle, the electric universal shaft, the illuminating lamp, the gyroscope, the loudspeaker, the telescopic motor, the weight sensor and the movable roller mechanism respectively, and is in wireless connection with the second camera, the user terminal and the alarm center respectively;

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

the information extraction module is used for extracting information and/or requests and/or instructions contained in the specified information;

the suspension telescopic module is used for controlling a telescopic rod in driving connection with a telescopic motor to execute set telescopic operation according to set steps;

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

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

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

the binding module is used for controlling the specified object to be bound with other objects;

the authority processing module is used for processing the control authority of the curtain control shell and acquiring the reading authority of the user terminal;

the control reading module is used for reading information contained in a control signal sent by the user terminal;

the movement control module is used for controlling the movable roller mechanism to execute the set curtain control shell movement operation according to the set steps;

the illumination control module is used for controlling the illumination lamp to be turned on or off;

and the electric universal module is used for controlling an illuminating lamp in driving connection with the electric universal shaft to execute set angle adjustment operation according to the set steps.

7. The automated service system based on data analysis and smart home of claim 6, wherein the processor further comprises:

the fixing control module is used for controlling the fixing buckle to execute the set fixing operation according to the set steps;

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

8. The automated service system based on data analysis and smart home of claim 6, wherein the processor further comprises:

the alarm module is used for controlling the loudspeaker to be started or closed;

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

9. The automated service system based on data analysis and smart home of claim 6, wherein the processor further comprises:

and the motion detection module is used for controlling the gyroscope to be started or closed.

Images