CN117336108A - Data pre-configuration system and method based on whole house type intelligent home - Google Patents

Abstract

The invention provides a data pre-configuration system and method based on a full-house type intelligent home, which solve the problems of quick configuration of intelligent home parameters, no external network construction configuration and the like. The invention has the advantages of high configuration efficiency, low operation difficulty and the like.

Description

Data pre-configuration system and method based on whole house type intelligent home

Technical Field

The invention belongs to the technical field of mechanical automation equipment, and particularly relates to a data pre-configuration system and method based on a full-house intelligent home.

Background

The intelligent home configuration data mainly comprises room floor setting, equipment network access and parameter configuration, scene linkage setting, multi-control setting, group control setting and the like. In the technical means or technical treatment scheme which is common in the industry at present, the intelligent home data configuration mode mainly comprises the following steps: firstly, floor rooms are set, then equipment is accessed to a cloud platform or a host/gateway one by one, and finally scene linkage setting, group setting, multi-control setting and the like are performed, so that time and effort are consumed for data configuration in the flow. The field construction configuration requires that the equipment is one-to-one connected to the network, and then each item of data such as room floor setting, scene linkage setting, multi-control setting, group control setting and the like is manually configured one by one on the field, so that great labor and time cost are consumed on the field; in addition, the above-mentioned places are configured in the field construction, because the network condition of the place is complex, the worker Shi Gongyun is relatively complex in the time of maintenance, a great deal of training is needed for the worker, and even the skilled technical constructor can consume great manpower cost and time cost in the field configuration; in the property projects, when a large number of construction operation and maintenance personnel are needed to perform one-to-one configuration of each household on site, each building is generally mainly 1-4 house types, all configuration data in each house type are the same, a large amount of repeated labor exists, the efficiency is low, and the probability of configuration errors is high.

In order to solve the defects existing in the prior art, long-term exploration is performed, and various solutions are proposed. For example, chinese patent literature discloses a smart home scene configuration method [ 2016610650562. X ], which includes a general model layer and a local model layer; the universal model layer is independently arranged outside each household subsystem and used for completing data collection of a plurality of local model layers and data collection of an external new household system; and the local model layer is used for completing data mining of the local sensor in each household subsystem to generate a user behavior model.

The scheme solves the problem that intelligent home data configuration is complicated to a certain extent, but the scheme still has a plurality of defects, such as a large number of repeated data configuration, no network on site, incapability of construction and the like.

Disclosure of Invention

The invention aims to solve the problems, and provides a data pre-configuration system based on a full-house intelligent home, which is reasonable in design, can effectively reduce labor cost and can perform construction configuration without a network on a construction site.

Another object of the present invention is to provide a data pre-allocation method based on a whole house type intelligent home, which reduces data duplication allocation and enables construction allocation without a network on a construction site, in order to solve the above problems.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a data pre-configuration system based on whole house formula intelligent house, includes the mobile terminal, and the mobile terminal adopts the external network to be connected with high in the clouds platform, and high in the clouds platform is connected with well accuse host computer, and the mobile terminal passes through LAN or bluetooth with well accuse host computer to be connected, and well accuse host computer adopts modes such as zigBee with the operational equipment to be connected. The mobile terminal and the host can realize the unified configuration of the data of the central control host and the working equipment in a local area network or Bluetooth connection state, and can realize the online configuration of the data by being connected with a cloud platform, so that the configuration cost of the intelligent home is effectively reduced.

In the data pre-configuration system based on the whole house type intelligent home, the mobile terminal is communicated with the cloud platform by adopting WIFI, 4G and/or 5G, and the working equipment comprises Bluetooth equipment, zigBee equipment and/or WIFI equipment. The mobile terminal downloads the pre-configured templates from the cloud platform in different transmission modes according to actual needs, and the central control host adapts to different working equipment, so that the universality of the system is improved.

The data pre-configuration method based on the whole house type intelligent home adopts the data pre-configuration system based on the whole house type intelligent home, and in the following steps, electricians and other personnel are allowed to construct and install equipment in advance or install the equipment one by one in the process of adding the equipment:

s1: the mobile terminal scans the code and binds the central control host;

s2: adding equipment and detecting the network access of the equipment;

s3: synchronizing the whole house intelligent home data to a central control host by using a pre-configuration template or field pre-configuration data;

s4: data debugging;

s5: delivering the customer. The method adopts a scanning mode to rapidly bind, and realizes data synchronization by the pre-configuration template, thereby reducing the difficulty of pre-configuration of intelligent home data and facilitating manual operation.

In the data pre-configuration method based on the whole house type intelligent home, whether the real estate project or the common intelligent home whole house single project supports to call the pre-configuration template, so that data accurate matching and verification are performed, and in the step S2, virtual equipment in configuration data and actual equipment are matched through scanning two-dimensional codes or NFC induction during or after installation, so that the purpose of performing one-to-one accurate calibration/matching on the actual installation equipment and the pre-configuration data is achieved; in this step, the device access and detection can be performed directly, especially for property items, by skipping the process of adding devices. The virtual equipment in the configuration data can be adjusted according to actual needs, so that the virtual equipment is suitable for different working equipment, and configuration expansion is convenient.

In the above data pre-configuration method based on the whole house type intelligent home, the step S2 includes the following steps:

s21: manually performing code scanning configuration/NFC configuration; or directly calling a pre-configured template;

s22: the equipment is accessed to the network;

s23: detecting equipment, and matching the host network access equipment with equipment in a data template;

s24: and outputting a device point position form and/or a full-house point position map.

In the above-mentioned data pre-configuration method based on the whole house type intelligent home, the device information of the device parameter table in step S21 includes the device SN, the device PID and the device mac. According to the equipment information, the quick configuration of parameters can be realized, and the system configuration efficiency is improved.

In the above-mentioned data pre-configuration method based on the whole house type intelligent home, the device information of the device point position table and/or the whole house point map in step S24 includes a device position, a device name, a device type, a device SN, a device PID and a device mac.

In the above-mentioned data pre-configuration method based on the whole house type intelligent home, the configuration data in the pre-configuration template in step S3 includes binding configuration information and parameter configuration of devices such as room floor setting, device network access, scene panel, etc., scene linkage setting, multi-control setting and group control setting. The pre-configuration template fully collects configuration data and meets the intelligent configuration requirement of the whole house.

In the data pre-configuration method based on the whole house type intelligent home, the data templates in the pre-configuration templates in the step S3 comprise official templates, client own templates and virtual equipment configuration templates. And selecting a proper data template according to the need, and flexibly adjusting the data configuration mode.

In the above data pre-configuration method based on the whole house type intelligent home, the step S5 includes the following steps:

s51: synchronizing the pre-configured room floor setting, equipment network access and parameter setting, scene linkage setting, multi-control setting and group control setting in the central control host to the APP or the applet;

s52: checking and verifying whether the data on the APP is consistent with the expectations, if so, delivering the client on site, otherwise, entering step S53;

s53: and (3) adjusting on the APP, performing data secondary checking and verification after adjustment, and delivering the client on site if the data secondary checking and verification are consistent. And the mobile terminal is internally provided with the APP, so that the on-site inspection and the timely correction are facilitated.

Compared with the prior art, the invention has the advantages that: the mobile terminal realizes unified configuration of multiple working devices through the central control host, and supports data pre-configuration for external network, local area network and Bluetooth transmission, so that the intelligent home configuration difficulty is reduced; introducing a pre-configuration template, and matching the device parameter form with the data template to avoid repeated configuration; the mobile terminal APP can be used for checking and debugging on site, and normal delivery of the intelligent home is ensured.

Drawings

FIG. 1 is a schematic diagram of a system of the present invention;

FIG. 2 is a system core diagram of the present invention;

FIG. 3 is a configuration flow chart of the present invention;

in the figure, a mobile terminal 1, an external network 2, a cloud platform 3, a central control host 4, a local area network 5 and working equipment 6.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1-3, a data pre-configuration system based on a whole house type intelligent home comprises a mobile terminal 1 such as a mobile phone and a tablet and a corresponding APP module is built in, the mobile terminal 1 is connected with a cloud platform 3 by adopting an external network 2 to realize online mutual transmission of a data pre-configuration template, the cloud platform 3 is connected with a central control host 4 and performs data transmission by adopting an MQTT protocol, and the internal pre-configuration parameters of the central control host 4 are directly adjusted by the cloud platform 3. The mobile terminal 1 is connected with the central control host 4 through the local area network 5, the central control host 4 is connected with the working devices 6, and the central control host 4 uniformly configures each working device 6.

Specifically, the mobile terminal 1 communicates with the cloud platform 3 by adopting WIFI, 4G and/or 5G, and the working device 6 includes a bluetooth device, a ZigBee device and/or a WIFI device. The ZigBee equipment meets the control of electric appliances such as electric lamps, refrigerators, washing machines, computers, air conditioners and the like, is connected with the external network 2 through a gateway, and a client realizes remote monitoring through the APP of the mobile terminal 1. The bluetooth device adopts the GAP protocol to discover, connect and pair the central control host 4 with the mobile terminal 1, so as to realize simple data interaction. The GATT protocol is adopted to describe and manage various services and features of the equipment, and the SMP protocol is adopted to encrypt communication data, so that installation authentication and encrypted transmission are carried out.

The local area network 5 employs the UDP protocol for external components to discover the networked central host 4 within the local area network 5. Basic information of the central control host 4 is acquired. The external component sends discovery messages using a central discovery link. After the external component and the host establish TCP connection, a login message is sent, for example, after the TCP connection is established, the central control host does not receive a login message request within 5 seconds, and the central control actively closes the TCP connection. After the external component passes the authentication, the host is required to synchronize. The synchronization information includes: all relevant information such as equipment information, area information, contextual model information, multi-control information, group information, host basic information, state information and the like.

A data pre-configuration method based on a whole house type intelligent home comprises the following steps:

s1: the mobile terminal 1 binds a central control host 4 by utilizing a built-in APP code scanning, wherein the two-dimension code provided by the central control host 4 supports offline binding, the two-dimension code of the central control host 4 comprises parameters such as host type, host CCUID and the like, and the core is displayed as host CCU number information;

s2: installing the equipment according to the construction point bitmap of the equipment by a circuit installer, powering up the equipment, and after the installation is completed, accessing the equipment to the network and scanning the equipment;

s3: synchronizing full-house intelligent home data into the central control host 4 and the working equipment 6 by using a pre-configured template, wherein the data templates in the pre-configured template comprise an official template, a client own template and a virtual equipment configuration template;

s4: after the data inspection and simple debugging are carried out on site by an installer and the pre-configuration data is completed, supporting preview inspection and control debugging on a mobile terminal, and carrying out inspection by local control equipment such as a user/construction maintenance personnel;

s5: and (3) delivering the client after checking to be qualified, and delivering the client by scanning the two-dimensional code, sharing the link and the like, wherein the owner rapidly enters a corresponding applet for delivering through the WeChat code, or finishes family delivery by scanning the two-dimensional code through the APP.

The scene linkage comprises scene linkage, different linkage devices are configured according to different scene positions, and an independent linkage mode is adopted, and the adopted working devices 6 comprise intelligent furniture such as door locks, curtains, air conditioners, televisions and the like. Besides scene linkage, the intelligent control system further comprises sensor linkage and time linkage, and the interconnection effect is further improved by the aid of the built-in sensors and clock modules of the working equipment 6.

Furthermore, the official template in step S3 is a template uniformly configured and issued by the enterprise, allowing all clients of the enterprise to use, and also allowing the clients to generate own templates after editing and modifying. In addition, official templates support real estate templates, villa templates, ocean house templates, etc. The client own template, namely the template custom created by the client, allows the client to automatically create the template belonging to the client through a mobile terminal/cloud terminal and other platforms, and only allows the owner or sharer of the template to use the client own template. The virtual equipment configuration template allows users/clients to add virtual equipment by themselves, and a complete set of pre-configuration template is generated by distributing rooms, scene linkage settings, multi-control settings, group control settings and the like on the basis of the virtual equipment through a mobile terminal/cloud end platform and the like.

In addition, step S2 includes the steps of:

s21: manually performing code scanning configuration/NFC configuration, or directly calling a pre-configuration template;

s22: the equipment is accessed to the network;

s23: detecting equipment, and matching the host network access equipment with equipment in a data template;

s24: and outputting a device point position form and/or a full-house point position map.

Meanwhile, the device information of the device parameter table in step S21 includes the device SN, the device PID, and the device mac. The equipment SN is used as a product serial number of the working equipment 6, so that one-to-one binding with the mobile terminal 1 is ensured, and the equipped equipment MAC is used as a unique MAC address of each cell in the working equipment 6, so that the security during network connection is ensured. The device PID is mainly used for closed-loop control, and realizes feedback adjustment of the working device 6.

It is noted that the device information of the device point location table and/or the full-house point map in step S24 includes a device location, a device name, a device type, a device SN, a device PID, and a device mac, and a corresponding point location table is generated according to the device information.

Taking a street lamp control panel and other equipment as an example, the point position table of the equipment is as follows:

it is apparent that step S5 includes the steps of:

s51: synchronizing the pre-configured room floor setting, equipment network access and parameter setting, scene linkage setting, multi-control setting and group control setting in the central control host 4 to the APP or the applet;

s52: checking and verifying whether the data on the APP is consistent with the expectations, if so, delivering the client on site, otherwise, entering step S53;

s53: and (3) adjusting on the APP, performing data secondary checking and verification after adjustment, and delivering the client on site if the data secondary checking and verification are consistent.

In summary, the principle of this embodiment is as follows: the client selects and uses a pre-configured package scheme through the mobile terminal 1, the cloud platform 3 transmits data to the appointed central control host 4, the central control host 4 receives and stores the cloud data, meanwhile, the relevant configuration information of the relevant equipment is issued to the working equipment 6, and the working equipment 6 receives the relevant configuration data issued by the central control host 4 and stores the relevant configuration data in the local equipment.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although terms such as the mobile terminal 1, the external network 2, the cloud platform 3, the central control host 4, the local area network 5, the working device 6 are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the invention; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present invention.

Claims (10)

1. The utility model provides a data pre-configuration system based on whole house formula intelligence house, its characterized in that includes mobile terminal (1), mobile terminal (1) adopt extranet (2) to be connected with high in the clouds platform (3), high in the clouds platform (3) be connected with well accuse host computer (4), mobile terminal (1) be connected through LAN (5) or bluetooth with well accuse host computer (4), well accuse host computer (4) be connected with operating device (6).

2. The data pre-configuration system based on the whole house type intelligent home according to claim 1, wherein the mobile terminal (1) communicates with the cloud platform (3) by adopting WIFI, 4G and/or 5G, and the working equipment (6) comprises Bluetooth equipment, zigBee equipment and/or WIFI equipment.

3. A data pre-configuration method based on a whole house type intelligent home, which is characterized in that the data pre-configuration system based on the whole house type intelligent home as claimed in any one of claims 1-2 is adopted, comprising the following steps:

s1: the mobile terminal (1) scans the code and binds the central control host (4);

s2: adding equipment and detecting the network access of the equipment;

s3: synchronizing the whole house intelligent home data to a central control host (4) by using a pre-configured template;

s4: data debugging;

s5: delivering the customer.

4. The data pre-configuration method based on the whole house type intelligent home according to claim 3, wherein the step S2 is to match the virtual device in the configuration data with the actual device by scanning a two-dimensional code or NFC induction before installing the working device (6).

5. The method for pre-configuring data based on a whole house type intelligent home as claimed in claim 4, wherein the step S2 comprises the steps of:

s21: manually performing code scanning configuration/NFC configuration; or directly calling a pre-configured template;

s22: the equipment is accessed to the network;

s23: detecting equipment, and matching the host network access equipment with equipment in a data template;

s24: and outputting a device point position form and/or a full-house point position map.

6. The method for pre-configuring data based on a whole house type intelligent home according to claim 5, wherein the device information of the device parameter table in step S41 includes a device SN, a device PID and a device mac.

7. The method for pre-configuring data based on a full-house intelligent home according to claim 5, wherein the device information of the device point table and/or the full-house point map in step S44 includes a device location, a device name, a device type, a device SN, a device PID and a device mac.

8. The method for pre-configuring data based on a whole house type intelligent home according to claim 3, wherein the configuration data in the pre-configuring template in the step S3 includes a room floor setting, a device network access and parameter configuration, a scene linkage setting, a multi-control setting and a group control setting.

9. The method for pre-configuring data based on a whole house type intelligent home according to claim 3, wherein the data templates in the pre-configuring templates in the step S3 comprise official templates, client own templates and virtual equipment configuring templates.

10. A method for pre-configuring data based on a whole house type intelligent home as claimed in claim 3, wherein the step S5 comprises the steps of:

s51: synchronizing the pre-configured room floor setting, equipment network access and parameter setting, scene linkage setting, multi-control setting and group control setting in the central control host (4) to the APP;

s52: checking and verifying whether the data on the APP is consistent with the expectations, if so, delivering the client on site, otherwise, entering step S53;

s53: and (3) adjusting on the APP, performing data secondary checking and verification after adjustment, and delivering the client on site if the data secondary checking and verification are consistent.