CN111524037A - Intelligent point distribution method and system for online equipment - Google Patents

Abstract

The invention mainly relates to the field of Internet of things, in particular to an intelligent on-line equipment point distribution method and system. An intelligent on-line equipment stationing method comprises the following steps: establishing a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment stationing positions and quantity to the corresponding room; distributing the construction projects of the established construction tasks; and after the webpage end receives the completion of the construction task, the webpage end controls corresponding equipment. According to the invention, the construction drawing is set for the room at the background in an intelligent construction drawing point distribution mode, point positions can be marked on the construction drawing and the equipment type can be marked, so that equipment can be accurately installed by subsequent constructors during installation, and errors are avoided.

Description

Intelligent point distribution method and system for online equipment

Technical Field

The invention mainly relates to the field of Internet of things, in particular to an intelligent on-line equipment point distribution method and system.

Background

In the intelligent commercial lighting field, traditional installation lighting apparatus needs the constructor to carry out the distribution network construction of a equipment according to the floor construction drawing, and this kind of mode is not only inefficient, the wrong condition of equipment fixing appears very easily moreover. And the control in the later period can only control a single device.

Disclosure of Invention

According to the invention, the construction drawing is set for the room at the background in an intelligent construction drawing point distribution mode, point positions can be marked on the construction drawing and the equipment type can be marked, so that equipment can be accurately installed by subsequent constructors during installation, and errors are avoided. And when all equipment installation is accomplished, can carry out batch control to whole floor, improve control efficiency and convenience greatly.

The invention aims to provide a method and a system for intelligently distributing online equipment, which introduce a visual intelligent equipment distribution network and a control mode, run through the whole life cycle of the intelligent equipment from construction to control, reduce the understanding cost of each link, and improve the distribution network efficiency and the management efficiency.

In order to achieve the above object, a technical solution of a first aspect of the present invention provides an intelligent point distribution method for online devices, including the following steps:

establishing a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment stationing positions and quantity to the corresponding room;

distributing the construction projects of the established construction tasks;

and after the webpage end receives the completion of the construction task, the webpage end controls corresponding equipment.

In some possible embodiments, the construction project reaches the mobile end after being distributed, and the construction task enters the corresponding room through the construction task of the mobile end and is completed by binding the equipment at the corresponding point position.

In some possible embodiments, the operating and binding the devices at the corresponding points includes the following steps:

firstly, inputting a unique identification code of equipment, and after the unique identification code passes verification, the mobile terminal receives a mac address corresponding to the equipment;

and the mobile terminal is used for distributing the network to the equipment.

In some possible embodiments, the unique identification code of the device is verified by the device platform, and after the verification is passed, the device platform acquires the mac address corresponding to the device and synchronizes to the service platform;

the equipment platform returns the mac address corresponding to the equipment to the mobile terminal;

the equipment and the IOT platform are interactively distributed with a network, after the network distribution is successful, the IOT platform informs the service platform, the service platform judges whether the equipment is the equipment which is recorded by the equipment platform according to the mac address which is stored before, if so, the information of the equipment is stored on the service platform.

In some possible embodiments, the construction task is submitted to the equipment platform after being completed, the equipment platform modifies the task state to be completed and synchronizes the equipment filtered by the service platform to the equipment platform, the equipment of the construction task is transferred from the mobile terminal to the web page terminal, and the mobile terminal state is modified to be completed.

In some possible embodiments, groups are provided for different types of devices in different rooms, by which groups the devices are controlled in batches.

In some possible embodiments, the device is a lighting device, preferably a commercial lighting device.

The technical solution of the second aspect of the present invention provides an intelligent on-line device stationing system, including:

the task module is used for creating a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment distribution positions and quantity to the corresponding room;

the distribution module is used for distributing the construction projects of the established construction tasks;

and the control module is used for controlling the corresponding equipment by the webpage end after the webpage end receives the completion of the construction task.

In some possible embodiments, the system further includes an operation module, configured to enable the construction project to reach the mobile end after being distributed, where the construction task enters a corresponding room through the construction task of the mobile end and is completed by a device at a corresponding point of the operation binding.

In some possible embodiments, the system further includes a group module, configured to set groups for different types of devices in different rooms, and perform batch control on the devices through the groups.

The technical scheme of the invention also provides a storage medium for storing executable instructions or the system for intelligently arranging the online equipment, wherein the executable instructions realize the steps of the method for intelligently arranging the online equipment when being executed.

Compared with the prior art, the invention at least has the following beneficial effects:

1. according to the invention, the construction drawing is set for the room at the background in an intelligent construction drawing point distribution mode, point positions can be marked on the construction drawing and the equipment type can be marked, so that equipment can be accurately installed by subsequent constructors during installation, and errors are avoided.

2. The invention can control the whole floor in batch after all the equipment is installed, thereby greatly improving the control efficiency and convenience.

3. The invention plays the functions of different platforms, realizes the filtering of external networked equipment and is convenient for the management of the equipment.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows a block flow diagram of a method for intelligent stationing of online devices according to an embodiment of the present invention;

FIG. 2 is a block flow diagram illustrating another method for intelligent stationing of online devices in accordance with an embodiment of the present invention;

fig. 3 shows a block diagram of an intelligent point placement system for online devices according to an embodiment of the present invention;

fig. 4 shows another structural block diagram of the intelligent point arranging system for the online device according to the embodiment of the present invention;

fig. 5 shows another structural block diagram of the intelligent point arranging system for the online device according to the embodiment of the invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1, an embodiment of the present invention discloses an intelligent point distribution method for an online device, which includes the following steps:

establishing a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment stationing positions and quantity to the corresponding room;

distributing the construction projects of the established construction tasks;

and after the webpage end receives the completion of the construction task, the webpage end controls corresponding equipment.

According to the method for intelligently arranging the on-line equipment, the construction tasks are established on line, the tasks are distributed on line, the tasks are completed on line, the construction drawing is arranged for a room in a background when the construction tasks are established on line, point positions can be marked on the construction drawing and the equipment types can be marked, so that equipment can be accurately installed by a subsequent constructor during installation, errors are avoided, the problem that the equipment installation accuracy rate is insufficient in the construction of intelligent equipment is effectively solved, the construction efficiency is improved, and the management is facilitated.

As shown in fig. 2, in some possible embodiments, the construction project reaches the mobile end after being distributed, and the construction task is completed by entering the construction task of the mobile end into a corresponding room to operate and bind the equipment at the corresponding point.

In the invention, the corresponding construction drawing and the equipment distribution position and quantity uploaded by the corresponding room can adopt the following methods:

importing the construction drawing into a corresponding room;

and taking the construction drawing as a background drawing, and placing corresponding equipment icons at corresponding positions of a room according to the information on the construction drawing.

And after the corresponding construction diagrams and the equipment distribution positions and the number are uploaded to the corresponding rooms, a visual distribution network interface can be formed, then task distribution is carried out, and the distribution network is completed according to the visual distribution network interface.

And the construction drawing is taken as a background drawing, and a corresponding equipment icon is placed in a position corresponding to the background drawing, so that the operation is convenient.

And importing the construction drawing into a corresponding room, and taking the construction drawing as a background drawing, namely entering a visualization task editing interface.

The editing interface can be divided into the following areas and functions:

a) tool bars: the visual interface function operation button set comprises the following steps: select mode button, frame select mode button.

b) A site map: the uploaded construction drawing is used as a background drawing, and the area can support background drawing zooming and background drawing dragging.

c) Device list: the device icons in the device list may be dragged to the site map.

d) Details of the apparatus: this layer may appear when a particular device icon or group of device icons is selected for display of device details and editing of device information.

The format of the construction drawing includes, but is not limited to, any one of jpg, jpeg, png, dwg, and 3D format.

Accordingly, the visual distribution network interface may be 2D and 3D images.

In addition, the background image has at least one of zooming and dragging functions.

And adding equipment icons at corresponding positions of the background graph according to the labeling information of the construction graph, wherein the equipment icons include but are not limited to searching for dragging settings in an equipment list, and the selected equipment icons can display equipment information and edit the information. In addition, if the device icon is selected to be deleted by mistake, the device icon can be continuously dragged to the correct position by mistake when the device icon is placed at the wrong position.

In some embodiments, the background map and the device icon added on the background map are located in different layers, namely a background layer and an icon layer;

and when one or more of the equipment icons to be added are selected or one or more of the added equipment icons are selected, displaying the icon layer.

In some embodiments, the device icon carries device information, and the device information is displayed when the device icon is selected.

In some embodiments, selecting the device icon edits information of the device icon.

The device information includes, but is not limited to, device name, device location, device model, device production time, device usage time.

According to the invention, the equipment information on the construction drawing can be intelligently identified, and the corresponding equipment icon can be automatically matched to the corresponding position of the background drawing.

If the equipment information on the construction drawing can be automatically identified, different equipment icons are matched to corresponding positions of the construction drawing serving as the background drawing according to the identified equipment information.

Specifically, the method can be realized by identifying information on the construction drawing through robot training:

a) firstly, outputting a design specification: as the designer makes the appointment what device uses what icon.

b) Then, the robot is trained by a robot training system (picture recognition robot system, as long as the robot can support picture recognition) to recognize what icon should correspond to what device (or device type).

c) The results of the robot training are imported into an identified AI system that provides the ability to automatically identify which devices and corresponding location information are on the picture for the incoming picture.

The identification function can match the corresponding equipment icon of the construction drawing identification information to the background drawing in various ways, for example, the identification function can be selected while the construction drawing is uploaded, and then the identified equipment icon is automatically added to the uploaded background drawing; or after the construction drawing is uploaded, the identification function can be selected, and then the identified equipment icon is automatically added to the background drawing. The device icon can be added directly or after being temporarily stored, according to the subsequent operation.

Specifically, the AI identification can be implemented in such a way that the equipment on the construction drawing is automatically identified according to the uploaded construction drawing and the corresponding position information can be temporarily stored; after the front end of the system receives the successful call-back of uploading, pulling the device icon and the corresponding position information of the device which are temporarily stored, and displaying the device icon and the corresponding position information on a background picture; and the user can directly click and store the icon after confirming that the icon is correct, so that the icon of the equipment can be added.

In addition, if the AI identification is erroneous, editing such as addition, editing, and moving may be performed by either temporarily storing the content or completing the addition of the device icon and then performing editing such as addition, editing, and moving.

And after the equipment icon is set, the obtained graph is issued to another node to obtain a visual distribution network interface, and then the on-site distribution network is completed according to the visual distribution network interface. The interface of the mobile terminal is a visual distribution network interface.

In some possible embodiments, the operating and binding the devices at the corresponding points includes the following steps:

firstly, inputting a unique identification code of equipment, and after the unique identification code passes verification, the mobile terminal receives a mac address corresponding to the equipment;

and the mobile terminal is used for distributing the network to the equipment.

Further, the unique identification code of the equipment is verified by the equipment platform, and after the unique identification code passes the verification, the equipment platform acquires the mac address corresponding to the equipment and synchronizes the mac address to the service platform;

the equipment platform returns the mac address corresponding to the equipment to the mobile terminal;

the equipment and the IOT platform are interactively distributed with a network, after the network distribution is successful, the IOT platform informs the service platform, the service platform judges whether the equipment is the equipment which is recorded by the equipment platform according to the mac address which is stored before, if so, the information of the equipment is stored on the service platform.

In some possible embodiments, the construction task is submitted to the equipment platform after being completed, the equipment platform modifies the task state to be completed and synchronizes the equipment filtered by the service platform to the equipment platform, the equipment of the construction task is transferred from the mobile terminal to the web page terminal, and the mobile terminal state is modified to be completed.

The invention can play the functions of different platforms, filter the external networked equipment and facilitate the management of the equipment.

In some possible embodiments, groups are provided for different types of devices in different rooms, by which groups the devices are controlled in batches.

When all equipment installation is finished, the whole floor can be controlled in batches by setting the group, and the control efficiency and the convenience are greatly improved.

In some possible embodiments, the device is a lighting device, preferably a commercial lighting device.

Specifically, examples are:

firstly, after a construction task is issued to an APP end, the APP end receives the construction task;

clicking the task list to enter a construction room;

then binding the equipment on each equipment position, firstly inputting a sn code of the equipment, wherein the sn code is a unique identification code of the equipment, the sn codes are generally pasted on a packaging box of the equipment and are globally unique, and the sn codes are submitted after the input is finished;

the business photo platform can verify whether the sn code is correct or not, if so, a mac address corresponding to the equipment is obtained, the mac address is also unique on the business photo platform, the sn code is used externally, and the mac address corresponding to the sn code is used by the internal platform;

the business photo platform synchronizes the mac address to the middle platform service, the subsequent middle platform service filters the equipment of the IoT platform through the mac address, and after the step is completed, the corresponding mac address is returned to the construction APP terminal.

At the moment, a constructor constructs an APP end to distribute a network to the equipment, the equipment directly interacts with the IoT platform during distribution of the network, after the distribution of the network is successful, the IoT platform sends a message to inform the middle station service that the equipment is well distributed, the middle station service filters whether the equipment is the equipment of the business photo platform according to the previously stored mac address, if the corresponding mac address is found, the equipment is stored in the middle station service, and in addition, other information corresponding to the equipment, such as product information, data point dp information and the like, can be stored.

After all the positions are provided with the equipment, a constructor can click a construction completion button on a construction APP to submit the construction task to a business photo platform, the business photo platform changes the state of the task into a completed state, and simultaneously, all the filtered equipment before the middle platform service is synchronized to the business photo platform, and the equipment is transferred to an enterprise account number at a webpage end from a constructor user, so that the installation is completed, and then the construction APP is returned, and the task is completed.

At the moment, the construction is finished, the constructed equipment can be seen at the webpage end, the webpage end can directly control the equipment, and the control logic is directly interacted with the IoT platform to finish the construction.

In addition, because many types of APP can all be joined in marriage the net, for example the construction APP can join in marriage the net, tenant APP also can join in marriage the net, hotel APP also can join in marriage the net, these join in marriage net all with the IoT platform and interact, join in marriage net success back, no matter which APP joins in marriage the equipment of net, the IoT platform all will send equipment and join in marriage net success's message, the business is at this moment according to the platform and just want to follow the equipment that construction APP configured from these equipment, the middle station service just plays the effect of filtering this moment. Specifically, the mac address corresponding to the equipment is sent to the middlebox service by the merchant picture platform before each distribution, the middlebox service stores the mac address, then the middlebox service monitors the successful distribution information of the equipment sent by the IoT platform, filters the mac address one by one, and if the mac address corresponding to the equipment is the same as the mac address sent to the equipment by the merchant picture platform, the equipment is configured through the construction APP, the equipment information is stored, and the equipment information is further synchronized to the merchant picture platform. And because the equipment filtering has high requirements on the machine performance, the middle-platform service is a system-level service, and can be specially configured with a server, so that the filtering can be performed quickly.

As shown in fig. 3, an embodiment of the present invention further provides a system for intelligent point distribution of online devices, including:

the task module is used for creating a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment distribution positions and quantity to the corresponding room;

the distribution module is used for distributing the construction projects of the established construction tasks;

and the control module is used for controlling the corresponding equipment by the webpage end after the webpage end receives the completion of the construction task.

As shown in fig. 4, in some possible embodiments, the system further includes an operation module, configured to reach the mobile end after the construction project is distributed, where the construction task enters a corresponding room through the construction task of the mobile end and is completed by binding the equipment at the corresponding point.

As shown in fig. 5, in some possible embodiments, the system further includes a group module, configured to set groups for different types of devices in different rooms, and perform batch control on the devices through the groups.

The technical scheme of the invention also provides a storage medium for storing executable instructions or the system for intelligently arranging the online equipment, wherein the executable instructions realize the steps of the method for intelligently arranging the online equipment when being executed.

Based on this understanding, the technical solutions of the present invention can be embodied in the form of software products. And other modules may be included in the storage medium.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, an integral connection, or a virtual connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The flowchart and block diagrams in the figures of the present invention illustrate the architecture, functionality, and operation of possible implementations of systems, methods and apparatus according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of instructions, which comprises one or more executable instructions for implementing the specified logical function(s). In some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by systems that perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In the description of the present specification, the description of the terms "some embodiments," "specifically," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An intelligent on-line equipment stationing method is characterized by comprising the following steps:

establishing a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment stationing positions and quantity to the corresponding room;

distributing the construction projects of the established construction tasks;

and after the webpage end receives the completion of the construction task, the webpage end controls corresponding equipment.

2. The method for intelligent on-line equipment stationing according to claim 1, wherein the construction projects are distributed and then reach the mobile terminal, and the construction tasks enter corresponding rooms through the construction tasks of the mobile terminal to operate and bind the equipment at the corresponding points.

3. The method for intelligent stationing of online devices according to claim 2, wherein the operation binding the devices at the corresponding points comprises the steps of:

firstly, inputting a unique identification code of equipment, and after the unique identification code passes verification, the mobile terminal receives a mac address corresponding to the equipment;

and the mobile terminal is used for distributing the network to the equipment.

4. The method for intelligent point placement of online devices according to claim 3, wherein the unique identification code of the device is verified by a device platform, and after the verification is passed, the device platform acquires the mac address corresponding to the device and synchronizes to the service platform;

the equipment platform returns the mac address corresponding to the equipment to the mobile terminal;

the equipment and the IOT platform are interactively distributed with a network, after the network distribution is successful, the IOT platform informs the service platform, the service platform judges whether the equipment is the equipment which is recorded by the equipment platform according to the mac address which is stored before, if so, the information of the equipment is stored on the service platform.

5. The method for intelligent point placement of online equipment according to claim 4, wherein the construction task is submitted to the equipment platform after completion, the equipment platform modifies the task state to be completed and synchronizes the equipment filtered by the service platform to the equipment platform, the equipment of the construction task is transferred from the mobile terminal to the web page terminal, and the mobile terminal state is modified to be completed.

6. The method for intelligent distribution of online equipment according to any one of claims 1 to 5, wherein groups are provided for different types of equipment in different rooms, and the equipment is controlled in batch by the groups.

7. The method for intelligent stationing of online devices according to claim 6, wherein the devices are lighting devices, preferably commercial lighting devices.

8. A system for intelligent point placement of online devices, comprising:

the task module is used for creating a construction project and a room corresponding to the construction project at a webpage end, and uploading a corresponding construction drawing and equipment distribution positions and quantity to the corresponding room;

the distribution module is used for distributing the construction projects of the established construction tasks;

and the control module is used for controlling the corresponding equipment by the webpage end after the webpage end receives the completion of the construction task.

9. The system for intelligent on-line equipment stationing of claim 8, further comprising an operation module, configured to reach the mobile end after the construction project is distributed, and the construction task enters a corresponding room through the construction task of the mobile end and is completed by binding the equipment at the corresponding point.

10. The system for intelligent distribution of online devices according to claim 8, further comprising a group module for grouping different types of devices in different rooms, and performing batch control on the devices through the group.

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