CN113783760B - Interconnection system and interconnection method for intelligent household equipment - Google Patents

Abstract

The invention relates to an interconnection system and an interconnection method for intelligent household equipment, and belongs to the technical field of intelligent household equipment. The system comprises a plurality of different manufacturer APPs, manufacturer equipment and manufacturer clouds, wherein each manufacturer APP and manufacturer interactively communicate with the corresponding manufacturer clouds, and each manufacturer cloud interactively communicates through an 'intercommunication cloud'. The method comprises the following steps: the manufacturer B equipment transmits the registration information to the intercommunication cloud through the intercommunication cloud, the intercommunication cloud creates the virtual equipment, and sends a registration message to the manufacturer A cloud through the virtual equipment to complete the registration of the manufacturer B equipment; 2: the method comprises the steps that a mobile phone APP of a manufacturer A sends a control command to a cloud of a manufacturer B through virtual equipment; 3: and the manufacturer B cloud transmits the received control command to the manufacturer B equipment to complete the control of the manufacturer B equipment. The invention realizes the function of realizing the management control of other equipment of different manufacturers through the APP of one manufacturer.

Description

Interconnection system and interconnection method for intelligent household equipment

Technical Field

The invention relates to an interconnection system for intelligent household equipment, and also relates to an interconnection method for the intelligent household equipment, belonging to the technical field of the intelligent household equipment.

Background

As shown in fig. 1, the intelligence of the smart home devices is mainly achieved through mutual cooperation between the devices, for example, when the human body sensor detects that a person passes through, the human body sensor sends a signal to the smart lamp, and the corresponding smart lamp is automatically turned on to provide illumination. Meanwhile, the intelligent household equipment can be generally controlled through a mobile phone APP, even voice control can be carried out through an intelligent sound box, the factors determine that the intelligent household equipment needs an Internet of things platform for unified management and scheduling, and the Internet of things platform is the brain of all the intelligent household equipment.

Because the current intelligent home industry does not form a uniform standard and an internet of things platform is needed in architecture, equipment of various manufacturers is respectively accessed to different internet of things platforms, and therefore the equipment of different manufacturers cannot be communicated with each other. If a certain manufacturer's equipment is used in a family, then other equipment can only be continuously used when other equipment is added subsequently, and there are many limitations.

According to the situation, a company provides a cloud interconnection scheme, a cloud interconnection interface is formulated by an intelligent home cloud, and a third party cloud realizes the interface and accesses the intelligent home cloud. The intelligent household cloud management system has the advantages that based on a certain company mobile phone APP of the intelligent household cloud, the intelligent household equipment directly connected into the intelligent household cloud can be controlled, and the intelligent household equipment connected into the third party cloud can be managed through the cloud interface. However, the APP corresponding to the third party cloud cannot manage the smart home device directly accessing the "smart home cloud". That is, the scheme of a company is: a company can control others, but cannot control the company, and the system is a one-way control scheme.

The main disadvantage of the prior art is that firstly, a certain 'smart home cloud' needs to be relied on to provide the 'cloud docking' interface and scheme, and when a third party cloud is docked according to the scheme, only 'control' can be achieved, and no initiative is provided.

From the perspective of the final home user, if the smart home devices of a certain company are used at the beginning and managed and controlled by using the smart home APPs of a certain company, but after purchasing a device of another company later, even if a certain company accesses the smart home cloud through the cloud docking scheme, the home user has to change the mobile phone APPs for control from those of a certain company to those of another company in order to control the devices of the same company and the newly added device of another company at the same time, which is very inconvenient for the home user.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides an interconnection system for intelligent home equipment, which can realize the function of managing and controlling equipment of other different manufacturers through an APP of one manufacturer.

The interconnection and intercommunication system for the intelligent home equipment comprises a plurality of different manufacturer APPs, manufacturer equipment and manufacturer clouds, wherein each manufacturer APP and manufacturer are in interactive communication with the corresponding manufacturer clouds, and each manufacturer cloud is in interactive communication through an 'intercommunication cloud';

the intercommunication cloud comprises a control module, a cloud driving module, virtual equipment and equipment libraries of various manufacturers;

the virtual devices include vendor virtual devices and standard virtual devices.

Further, the interfaces between the manufacturer device and the manufacturer cloud include an interface through which the manufacturer device sends a registration message to the manufacturer cloud, an interface through which the manufacturer device reports data to the manufacturer cloud, an interface through which the manufacturer cloud issues a command/attribute to the manufacturer device, and an interface through which the manufacturer cloud sends a query attribute/data to the manufacturer device;

the interface between the manufacturer APP and the manufacturer cloud comprises an interface for the manufacturer APP to send query equipment to the manufacturer cloud, an interface for the manufacturer APP to subscribe data to the manufacturer cloud, an interface for the manufacturer APP to issue commands/attributes to the manufacturer cloud, an interface for the manufacturer APP to query attributes/data from the manufacturer cloud, and an interface for the manufacturer cloud to notify the manufacturer APP to push.

Furthermore, the intercommunication cloud also comprises an activation code distribution/management module, the control module is interactively connected with the manufacturer cloud, the control module is in control connection with the activation code distribution/management module, the manufacturer equipment library, the standard virtual equipment and the manufacturer virtual equipment, and the manufacturer virtual equipment is interactively connected with the manufacturer cloud.

Further, the vendor device library includes all device types and functions supported by the vendor.

Another object of the present invention is to provide an interworking method for smart home devices,

the interconnection method for the intelligent household equipment comprises the following steps: if one manufacturer is a manufacturer A and the other manufacturer is a manufacturer B, the virtual equipment comprises manufacturer A virtual equipment and standard virtual equipment, the manufacturer equipment library comprises a manufacturer A equipment library and a manufacturer B equipment library, and the step of controlling the other manufacturer equipment through one manufacturer APP comprises the following steps:

s1: the manufacturer B equipment transmits the registration information to the intercommunication cloud through the manufacturer B cloud, the intercommunication cloud creates the virtual equipment, and sends a registration message to the manufacturer A cloud through the virtual equipment to complete the registration of the manufacturer B equipment;

s2: the method comprises the steps that a mobile phone APP of a manufacturer A sends a control command to a cloud of a manufacturer B through virtual equipment;

s3: and the manufacturer B cloud transmits the received control command to the manufacturer B equipment to complete the control of the manufacturer B equipment.

Further, S1 specifically includes the following steps:

s1.1: the manufacturer B equipment transmits the registration information to the manufacturer B cloud;

s1.2: after the manufacturer B equipment is successfully registered to the manufacturer B cloud, the manufacturer B cloud informs the interworking cloud of the successful addition of the manufacturer B equipment and transmits the message to a control module of the interworking cloud;

s1.3: the control module inquires equipment information of the manufacturer B equipment from a manufacturer B equipment library;

s1.4: the control module creates standard virtual equipment and loads a function model according to a function list supported by manufacturer B equipment;

s1.5: the control model inquires the manufacturer equipment model which is most matched with the manufacturer equipment library A from the loaded functional model, and creates manufacturer virtual equipment A according to the requirements of the functional model;

s1.6: the vendor a virtual device sends registration information to the vendor a cloud,

s1.7: and after the successful registration, the cloud of the manufacturer A returns a successful registration message to the virtual equipment of the manufacturer A to complete the registration of the equipment of the manufacturer B.

Further, S2 specifically includes the following steps:

s2.1: the method comprises the steps that an APP of a manufacturer A sends a device control command of the manufacturer A to a cloud of the manufacturer A;

s2.2: the manufacturer A virtual equipment sends the manufacturer A equipment control command in the S2.1 to the standard virtual equipment through the equipment driver according to the interface form of the standard virtual equipment;

s2.3: and the standard virtual equipment converts the received equipment control command of the manufacturer A into an equipment control command of the manufacturer B according to an interface form of the manufacturer B cloud through cloud driving and sends the equipment control command of the manufacturer B to the manufacturer B cloud.

Further, creating a vendor a virtual device in S1.5 specifically includes the following cases:

1) when the function of the equipment of the manufacturer B is less than that of the equipment of the manufacturer A, the control module only creates a virtual equipment of the manufacturer A;

2) when the function of the equipment of the manufacturer B is more than that of the equipment of the manufacturer A but can not be split into a plurality of pieces of equipment of the manufacturer A, the control module only creates one piece of virtual equipment of the manufacturer A;

3) when the function of the B vendor device is equal to the combination of the plurality of a vendor devices, a specified number of a vendor virtual devices are created.

Further, the registration information includes a device name, a device model, a device serial number, and a device activation code.

The invention has the beneficial effects that: 1) the intelligent home cloud system only depends on the equipment side interface and the cloud side control interface which are generally supported by the intelligent home clouds, and the universality is strong;

2) when any two 'intelligent home clouds' are interconnected, the two 'intelligent home clouds' do not need to be changed, and only need to be communicated through the 'interconnection cloud', so that the interconnection efficiency is improved, and the interconnection steps are simplified;

3) according to the scheme of the intercommunication cloud, after the equipment is used in a mixed mode, full connection needing to be intercommunicated between every two intelligent home platforms is optimized to be star-shaped connection, needing to be intercommunicated with the intercommunication cloud, of each intelligent home cloud, and therefore the cost of intercommunication and interconnection of the intelligent homes is greatly reduced.

Drawings

FIG. 1 is a flow chart of an Internet of things platform scheduling smart home;

FIG. 2 is a flow chart of a company "cloud interconnection" scheme;

fig. 3 is a control flow chart of a company for an intelligent sound box of the company through a cloud interconnection scheme;

fig. 4 is a block diagram of a general structure of an interconnection and interworking system for smart home devices according to the present invention;

FIG. 5 is a connection block diagram of the interworking system for smart home devices in accordance with the present invention

Fig. 6 is a flowchart of an interconnection method for smart home devices according to the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 4 and 6, the interconnection and interworking system for smart home devices of the present invention includes a plurality of different manufacturer APPs, manufacturer devices, and manufacturer clouds, wherein each manufacturer APP and manufacturer interacts with a corresponding manufacturer cloud, and each manufacturer cloud interacts with each other through an "interworking cloud";

the intercommunication cloud comprises a control module, a cloud driving module, virtual equipment and equipment libraries of various manufacturers;

the virtual devices include vendor virtual devices and standard virtual devices.

As shown in fig. 5, the interfaces between the vendor device and the vendor cloud include an interface through which the vendor device sends a registration message to the vendor cloud, an interface through which the vendor device reports data to the vendor cloud, an interface through which the vendor cloud issues a command/attribute to the vendor device, and an interface through which the vendor cloud sends a query attribute/data to the vendor device;

the interfaces between the vendor APP and the vendor cloud comprise an interface for the vendor APP to send query equipment to the vendor cloud, an interface for the vendor APP to subscribe data to the vendor cloud, an interface for the vendor APP to issue commands/attributes to the vendor cloud, an interface for the vendor APP to query attributes/data from the vendor cloud, and an interface for the vendor cloud to notify the vendor APP of push.

The interconnection cloud also comprises an activation code distribution/management module, the control module is in interactive connection with the manufacturer cloud, the control module is in control connection with the activation code distribution/management module, the manufacturer equipment library and the manufacturer virtual equipment, and the manufacturer virtual equipment and the manufacturer cloud are in interactive connection with the manufacturer equipment library and comprise types and functions of all equipment supported by manufacturers.

The control module creates standard virtual equipment, and the standard virtual equipment loads the function model according to the requirements of the manufacturer virtual equipment.

For example, a new fan device functionally supports air inlet/outlet, and also supports temperature/humidity/carbon dioxide concentration/PM 2.5 concentration detection of the environment, and so on, so that the new fan device can be divided into 6 functional models of air inlet/outlet/ambient temperature detection/ambient humidity detection/carbon dioxide concentration detection/PM 2.5 concentration detection;

as shown in fig. 6, the interconnection method for smart home devices of the present invention is as follows: if one manufacturer is a manufacturer A and the other manufacturer is a manufacturer B, the virtual equipment comprises manufacturer A virtual equipment and standard virtual equipment, the manufacturer equipment library comprises a manufacturer A equipment library and a manufacturer B equipment library, and the step of controlling the other manufacturer equipment through one manufacturer APP comprises the following steps:

s1: the manufacturer B equipment transmits the registration information to the intercommunication cloud through the manufacturer B cloud, the intercommunication cloud creates the virtual equipment, and sends a registration message to the manufacturer A cloud through the virtual equipment to complete the registration of the manufacturer B equipment;

the interface form of the standard virtual device is defined by the interworking cloud, for example: the registration message for vendor a may be as follows: { Name: "Device-A", Type: "CA-100", Sequence: "JHFY 987234" }

And the registration message of the B vendor may be:

{ DeviceName: "Device-B", Model: "LK 330A", Auth: "GYGiasdi 6757", manufacturing: "Nanjing-3" } field number, field name, field organization, all of which may be different;

s1 specifically includes the following steps:

s1.1: the manufacturer B equipment transmits the registration information to the manufacturer B cloud; the registration information includes a device name, a device model number, a device serial number, and a device activation code.

S1.2: after the manufacturer B equipment is successfully registered to the manufacturer B cloud, the manufacturer B cloud informs the interworking cloud of the successful addition of the manufacturer B equipment and transmits the message to a control module of the interworking cloud;

s1.3: the control module inquires equipment information of the manufacturer B equipment from a manufacturer B equipment library;

s1.4: the control module creates standard virtual equipment and loads a function model according to a function list supported by manufacturer B equipment;

s1.5: the control model inquires the manufacturer equipment model which is most matched with the manufacturer equipment library A from the loaded functional model, and creates manufacturer virtual equipment A according to the requirements of the functional model;

creating vendor a virtual device in S1.5 specifically includes the following conditions:

1) when the function of the equipment of the manufacturer B is less than that of the equipment of the manufacturer A, the control module only creates a virtual equipment of the manufacturer A;

if the functions of the equipment of the manufacturer A are more than those of the equipment of the manufacturer B, some functions will fail when the user operates on the mobile phone APP of the manufacturer A. Supposing that the desk lamp of the manufacturer A supports a brightness adjusting function, the actually added desk lamp of the manufacturer B only has a switch and does not have brightness adjustment, the cloud of the manufacturer A sends a brightness attribute setting message to the virtual equipment of the manufacturer A, and after the virtual equipment of the manufacturer A receives the message, the equipment driver cannot find the corresponding function model, so that failure is returned, failure is returned to the cloud of the manufacturer A, and the APP display operation of the mobile phone of the manufacturer A fails.

2) When the function of the equipment of the manufacturer B is more than that of the equipment of the manufacturer A but can not be split into a plurality of pieces of equipment of the manufacturer A, the control module only creates one piece of virtual equipment of the manufacturer A;

if the functions of the equipment of the manufacturer B are more than those of the equipment of the manufacturer A, but the extra functions cannot find another equipment of the manufacturer A as a supplement, the extra functions of the equipment of the manufacturer B cannot be displayed in the mobile phone APP of the manufacturer A, and thus the equipment of the manufacturer B cannot be operated.

3) When the function of the B vendor device is equal to the combination of the plurality of a vendor devices, a specified number of a vendor virtual devices are created.

S1.6: the vendor a virtual device sends registration information to the vendor a cloud,

s1.7: and after the successful registration, the cloud of the manufacturer A returns a successful registration message to the virtual equipment of the manufacturer A to complete the registration of the equipment of the manufacturer B.

S2: the method comprises the steps that a mobile phone APP of a manufacturer A sends a control command to a cloud of a manufacturer B through virtual equipment; s2 specifically includes the following steps:

s2.1: the method comprises the steps that an APP of a manufacturer A sends a device control command of the manufacturer A to a cloud of the manufacturer A;

s2.2: the manufacturer A virtual equipment sends the manufacturer A equipment control command in the S2.1 to the standard virtual equipment through the equipment driver according to the interface form of the standard virtual equipment; s2.3: and the standard virtual equipment is driven by the cloud end and sends the issuing command to the manufacturer B cloud.

S2.3: and the standard virtual equipment converts the received equipment control command of the manufacturer A into an equipment control command of the manufacturer B according to an interface form of the manufacturer B cloud through cloud driving and sends the equipment control command of the manufacturer B to the manufacturer B cloud.

S3: and the manufacturer B cloud transmits the received control command to the manufacturer B equipment to complete the control of the manufacturer B equipment.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides an interconnection and intercommunication system for intelligent household equipment, includes a plurality of different manufacturers APP, manufacturer's equipment and manufacturer cloud, its characterized in that: each manufacturer APP and manufacturer interactively communicate with corresponding manufacturer clouds, and each manufacturer cloud interactively communicates through an 'intercommunication cloud';

the intercommunication cloud comprises a control module, a cloud driving module, virtual equipment and equipment libraries of various manufacturers;

the virtual equipment comprises manufacturer virtual equipment and standard virtual equipment;

if one manufacturer is a manufacturer A and the other manufacturer is a manufacturer B, the virtual equipment comprises manufacturer A virtual equipment and standard virtual equipment, the manufacturer equipment library comprises a manufacturer A equipment library and a manufacturer B equipment library, and the step of controlling the other manufacturer equipment through one manufacturer APP comprises the following steps:

s1: the manufacturer B equipment transmits the registration information to the intercommunication cloud through the manufacturer B cloud, the intercommunication cloud creates the virtual equipment, and sends a registration message to the manufacturer A cloud through the virtual equipment to complete the registration of the manufacturer B equipment;

s2: the method comprises the steps that a mobile phone APP of a manufacturer A sends a control command to a cloud of a manufacturer B through virtual equipment;

s3: and the manufacturer B cloud transmits the received control command to the manufacturer B equipment to complete the control of the manufacturer B equipment.

2. The interconnection and interworking system for smart home devices according to claim 1, wherein: the interface between the manufacturer equipment and the manufacturer cloud comprises an interface for the manufacturer equipment to send a registration message to the manufacturer cloud, an interface for the manufacturer equipment to report data to the manufacturer cloud, an interface for the manufacturer cloud to issue a command/attribute to the manufacturer equipment, and an interface for the manufacturer cloud to send a query attribute/data to the manufacturer equipment;

the interface between the manufacturer APP and the manufacturer cloud comprises an interface for the manufacturer APP to send query equipment to the manufacturer cloud, an interface for the manufacturer APP to subscribe data to the manufacturer cloud, an interface for the manufacturer APP to issue commands/attributes to the manufacturer cloud, an interface for the manufacturer APP to query attributes/data from the manufacturer cloud, and an interface for the manufacturer cloud to notify the manufacturer APP to push.

3. The interconnection and interworking system for smart home devices according to claim 1, wherein: the intercommunication cloud also comprises an activation code distribution/management module, the control module is in interactive connection with the manufacturer cloud, the control module is in control connection with the activation code distribution/management module, the manufacturer equipment library, the standard virtual equipment and the manufacturer virtual equipment, and the manufacturer virtual equipment is in interactive connection with the manufacturer cloud.

4. The interconnection and interworking system for smart home devices according to claim 1, wherein: the vendor device library includes all device types and functions supported by the vendor.

5. The utility model provides an interconnection and intercommunication method for intelligent home equipment which characterized in that, establishes one of them firm as A firm, and another firm is B firm, then virtual equipment includes A firm virtual equipment and standard virtual equipment, and firm equipment storehouse includes A firm equipment storehouse and B firm equipment storehouse, controls another firm equipment through one of them firm APP and includes the following step:

s1: the manufacturer B equipment transmits the registration information to the intercommunication cloud through the manufacturer B cloud, the intercommunication cloud creates the virtual equipment, and sends a registration message to the manufacturer A cloud through the virtual equipment to complete the registration of the manufacturer B equipment;

s1.1: the manufacturer B equipment transmits the registration information to the manufacturer B cloud;

s1.2: after the manufacturer B equipment is successfully registered to the manufacturer B cloud, the manufacturer B cloud informs the interworking cloud of the successful addition of the manufacturer B equipment and transmits the message to a control module of the interworking cloud;

s1.3: the control module inquires equipment information of the manufacturer B equipment from a manufacturer B equipment library;

s1.4: the control module creates standard virtual equipment and loads a function model according to a function list supported by manufacturer B equipment;

s1.5: the control model inquires the manufacturer equipment model which is most matched with the manufacturer equipment library A from the loaded functional model, applies for an activation code from an activation code distribution/management module, and creates manufacturer A virtual equipment according to the requirements of the functional model;

s1.6: the vendor a virtual device sends registration information to the vendor a cloud,

s1.7: after the successful registration, the manufacturer cloud A returns a successful registration message to the manufacturer virtual equipment A to complete the registration of the manufacturer equipment B;

s2: the method comprises the steps that a mobile phone APP of a manufacturer A sends a control command to a cloud of a manufacturer B through virtual equipment;

s3: and the manufacturer B cloud transmits the received control command to the manufacturer B equipment to complete the control of the manufacturer B equipment.

6. The interconnection and interworking method for smart home devices according to claim 5, wherein S2 specifically comprises the following steps:

s2.1: the method comprises the steps that an APP of a manufacturer A sends a device control command of the manufacturer A to a cloud of the manufacturer A;

s2.2: the manufacturer A virtual equipment sends the manufacturer A equipment control command in the S2.1 to the standard virtual equipment through the equipment driver according to the interface form of the standard virtual equipment;

s2.3: and the standard virtual equipment converts the received equipment control command of the manufacturer A into an equipment control command of the manufacturer B according to an interface form of the manufacturer B cloud through cloud driving and sends the equipment control command of the manufacturer B to the manufacturer B cloud.

7. The interconnection and interworking method for smart home devices according to claim 5, wherein: creating vendor a virtual device in S1.5 specifically includes the following conditions:

1) when the function of the equipment of the manufacturer B is less than that of the equipment of the manufacturer A, the control module only creates a virtual equipment of the manufacturer A;

2) when the function of the equipment of the manufacturer B is more than that of the equipment of the manufacturer A but can not be split into a plurality of pieces of equipment of the manufacturer A, the control module only creates one piece of virtual equipment of the manufacturer A;

3) when the function of the B vendor device is equal to the combination of the plurality of a vendor devices, and a specified number of a vendor virtual devices are created.

8. The interconnection and interworking method for smart home devices according to claim 5, wherein: the registration information includes a device name, a device model number, a device serial number, and a device activation code.

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