CN114818344A - Intelligent LED lamp customization system - Google Patents

Abstract

The invention relates to an intelligent LED lamp customization system. According to the invention, an intelligent LED lamp customization system is constructed by utilizing the Internet + technology, and a buyer user can select a favorite existing scheme or select a scheme to be redesigned and adjusted by a designer according to individuation of the buyer user through the system. The system enables a buyer user to create a completely satisfied lamp illumination scheme without going out of home, has multiple functions and is convenient and quick to use, and the main functions comprise creating a new space, selecting an operation type, selecting an application space, inputting a space size, completing filling or not, returning to the new space or not, entering building, lamps and materials, adjusting the building, the lamps and the materials (increasing, decreasing, moving and zooming), applying for an illuminometer by a platform, uploading lamp-off data according to platform guidance, selecting a lamp scheme, determining whether the lamp scheme is satisfied or not, and reselecting the lamp scheme or not, thereby directly producing an order.

Description

Intelligent LED lamp customization system

Technical Field

The invention relates to an intelligent LED lamp customization system.

Background

With the gradual improvement of living standard, individual commercial users often choose to purchase lamps on line due to the problem of economic benefit, the traditional lamp selling mode designed and produced by manufacturers per se cannot meet the gradually improved lamp appreciation level and personalized requirements of people; in addition, in the current domestic customized lamp market, the following problems generally exist in customized service for individual customers:

(1) customizing a platform: lack of open customization platform

Product customization of LEDs can be divided into two categories depending on the subject of the product, one is product customization for individual consumers and one is lighting customization for large projects. The current practical situation is that lamp manufacturers pay more attention to engineering customization, because the quantity of fixture lamps is large, the profit is relatively more, the lighting companies are prompted to customize heavy fixture lamps and light household lamps, and an open customization platform for individual users is lacked

(2) The user: user customization demand obfuscation in customization activities

In the lamp customization process, because users generally do not have lighting knowledge and related experience, the customization requirement is relatively fuzzy, and most lamps of the lamp platform modularize and parameterize contents, and the parameters are very strange to the users. The user cannot understand and judge own lighting requirements well, and the customization platform does not guide the customization behavior of the user and dig the customization requirements deeply, so that the user simply selects appearance customization in the customization activity. Users often purchase a batch of unsuitable lamps, and the lamps are adjusted repeatedly in the operation process.

(3) Products and services: lack of scene experience with custom processes

For the customized service, in the customization of the LED product, the customized flow is linear, and the user can only simply know the specific situation of a single lamp, and does not know the placing effect and lighting situation in a specific space, and the lighting experience in a scene is lacked.

The above problems are discontented for buyers and also cause the manufacturers to be perplexing, which undoubtedly seriously affects the further development of the lamp customization industry, and therefore, the customized lamps are produced at the right moment.

Disclosure of Invention

The invention aims to solve the problem that a user purchases lamps wrongly due to lack of scientific knowledge base and experience judgment in the process of customizing the lamps, the invention is matched with the actual operation space of the user according to the lighting standard, and provides a scientific lamp lighting scheme for the user according to the actual lighting requirement, and in order to realize the aim, the invention provides the following technical scheme:

1. the invention provides an intelligent LED lamp customizing system and provides a method for providing a personalized customizing scheme by using the intelligent LED lamp customizing system. Which is characterized by comprising the following steps of,

the client module is used for the buyer user to select a designer, a design scheme and a manufacturer; the client module can be used for the buyer user to inquire the related information of the customized lamp;

the manufacturer module is used for designing a scheme by a manufacturer user according to the personalized requirements of the buyer user and customizing a corresponding lamp for the buyer;

the server module is connected with the client module and the manufacturer module through a network; the data query system is used for storing and managing data generated by the client module and the producer module and providing data query service for the client module and the producer module.

2. The wireless illuminometer comprises an optical sensor, a control unit, a microprocessor, a driving circuit of a display screen, the display screen and a wireless network module

The optical sensor is used for receiving the space illumination; the microprocessor converts the light signal into an illumination value and transmits the illumination value outwards; the control unit is connected with the microprocessor and is provided with a plurality of cases which can control the microprocessor; the driving circuit of the display screen is linked with the microprocessor and the display screen and is used for transmitting the illumination value; the display screen is used for displaying the illumination value; the wireless network module is used for uploading the detected illumination values to the intelligent LED lamp customizing platform.

3. The intelligent LED lamp customization platform comprises an independent lamp data storage system, an independent lamp, a building, a decorative element data storage system, a display system, an operation system and an output system

The system divides the lamp customizing flow into five plates. And respectively creating space, matching scenes, acquiring data, performing analog operation and recommending lamps according to the time sequence.

4. Space creation tiles: selecting space types (catering, shops, offices and the like), selecting operation types (subdividing different operation types), inputting the length, the width and the height of a space, inputting geographic positions and creating a 3-dimensional space by the volume of the system.

5. Scene collocation plate: the system provides a whole set of scene schemes according to the user space data, and the user selects and applies a set of schemes after screening according to the style and the color system. The whole set of scheme comprises building elements, lamp elements and material elements. The user can move, delete, zoom and other operations on elements in the scheme according to actual conditions so as to be more fit with actual frequent scenes.

Building elements (wall painting, beam column, ceiling and door and window) are selected from independent lamps, buildings and decorative element libraries, lamps are selected according to styles, color systems and types, and lamp materials are selected. The spatial position arrangement is carried out on various selection elements, and for facilitating the position arrangement of a user, a 2D view and a 3D view are provided for the user to switch.

6. Obtaining a data plate: and the user applies for the illuminometer from the intelligent LED lamp customization platform to measure the lighting data of the operating space. Dividing a measurement area into a plurality of square grids (as shown in the figure) according to platform operation guidance, acquiring illumination data of the center of each grid point, uploading the illumination data to a platform, and recovering an illumination meter by the platform after measurement is finished, as shown in figure 1

7. And (3) simulating an operation plate: the platform simulates the illumination value of each network point in the created three-dimensional space, and according to the national indoor place illumination standard, when the illumination value of a certain area does not meet the standard, the platform supplements the lamp simulation layout according to the illumination difference value (the luminous flux of each lamp is fixed) so that the space illumination of the operation place meets the national illumination standard, and then screens the lamp schemes meeting the difference value to provide choices for users. Lighting standards for each space: (data from GB 50034-2013 architectural lighting design Standard) is shown in FIG. 2

8. The recommended plate of the lamp is as follows: and after the platform finishes the simulation operation, the user can screen the lamp scheme according to the style and the color system and then purchase the lamp.

It should be noted that, although the client module and the producer module are both connected to the same server module through the network, the client module can only check the content issued by the producer; meanwhile, the content released by the manufacturer module can only be checked by the client module, and the client module in the system can communicate with the manufacturer user. In actual operation, a buyer user creates a space-designed scheme by himself and releases the space-designed scheme on a platform, a manufacturer can communicate with the buyer according to self conditions after seeing the scheme, (the buyer user can directly select a favorite manufacturer to customize production according to information released by the manufacturer under certain conditions), then the selected manufacturer designs an individual product for the buyer user, after the product is shaped, the manufacturer user quotes according to drawings, the buyer quotes the buyer user according to the quoted price of the manufacturer, and after price negotiation is correct, the producer user produces and installs the product according to a product sorting module, a production scheduling module, a bar code order following module, a packaging scanning module, a logistics management module and an installation photographing module provided by the system.

When the internet-based lamp customization system is used, a buyer user simultaneously selects all lamp products of manufacturers using the system or communicates with manufacturers using the system through the client module, so that customized lamp products meeting personalized requirements of the buyer user are designed; after a buyer user selects a product, if the product is selected to be a customized service provided for a manufacturer, the manufacturer produces a customized lamp; if the buyer user selects the customized service provided for the manufacturer, the customization scheme is converted into a processing drawing in an order processing module of a manufacturer module (the mode of converting the order into the processing drawing is divided into an automatic conversion mode and a manual conversion mode), then the manufacturer produces the customized lamp according to the processing drawing, and the production process and logistics information of the customized lamp are input into the system at any time for the buyer user to inquire.

Further, the client module is a web client and/or a mobile APP client; wherein the web client is for use by the buyer user on the computer; the mobile APP client is used by the buyer user on a mobile phone or a tablet personal computer, so that the buyer user can finish lamp purchasing and customizing in the middle of movement, and the working efficiency of the lamp customizing industry is greatly improved.

Further, the mobile APP client is a mobile phone APP client and/or a tablet computer APP client; the mobile phone APP client and the tablet computer APP client both comprise an android version client and an IOS version client.

Preferably, the server module is a cloud server or a common server, and the common server refers to a traditional physical server.

Further, the server module comprises a cache module, a database module and a file module;

the cache module is used for caching frequently-accessed data so as to reduce the operating pressure of the database module;

the database module is used for storing customer information, sales order information, lamp information and production order information, and also storing huge customized lamp case data, and can provide thousands of brands and thousands of lamp customized real cases at the same time;

the file module is used for storing photo information, and the photo information comprises a lamp picture and/or an installation site picture.

Further, the cache module is a Redis cache module; the database module is a MySql database module; the file module is an NTFS file storage module or an HDFS distributed file storage module.

Further, the client module further comprises a product evaluation module, and the product evaluation module is used for evaluating the completed orders by the buyer user, including the evaluation of the lamp product and the evaluation of the manufacturer.

Furthermore, the client module further comprises a demand publishing module, and the demand publishing module is used for publishing the demand of the buyer user;

the producer module comprises a bidding module; the bidding module is used for bidding by the manufacturer user according to the requirements of the buyer user.

Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the Internet + technology to construct the lamp customizing system, and a buyer user can select the favorite existing scheme through the system or select to allow a designer to redesign and adjust the scheme according to the individuation of the designer. The system enables a buyer user to build a completely satisfied personalized lamp without going out of home, and has the advantages of multiple functions and convenient and quick use.

Description of the drawings:

FIG. 1 is a block diagram schematically illustrating the structure of the present invention;

FIG. 2 is a table of shop architectural lighting values of the present invention;

FIG. 3 is a flowchart illustrating the platform operation according to the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and the embodiments. It should be understood that the scope of the above-described subject matter is not limited to the following examples, and any techniques implemented based on the disclosure of the present invention are within the scope of the present invention.

Example 1: as shown in fig. 3, the present embodiment provides an intelligent LED lamp customization system, including,

the client module is used for a buyer user to check the existing lamp customized real case provided by a producer user; thereby facilitating the buyer user to select the designer, the design scheme and the manufacturer; the existing lamp customization real case is also called a lamp customization template (because the lamp can be provided or newly produced according to the template); the lamp customization templates are divided into lamp combination templates and part combination templates; the lamp combination template provides various combinations of commonly matched lamps (for example, the lamp combination template is distinguished according to application scenes, and is applied to various occasions (as shown in fig. 2), a buyer user selects existing lamp products to be freely combined according to own preferences, meanwhile, the lamp combination template can also select parts of the lamps (such as shapes, materials and colors of several surfaces of the lamps and the decoration styles of the buyer user, the parts are matched for communication between the buyer user and a designer, so that the designer provides a personalized lamp design scheme for the buyer user, the client module can be used for the buyer user to inquire related information of the customized lamps, the buyer user can obtain own customized serial number after the lamp is customized, and the buyer user can inquire the production progress, logistics information and the like of the customized lamps through the client module.

The buyer user customizes a demand design scheme in a personalized way and orders goods to the manufacturer user; the client module comprises a space building block, a data block, a real operation space illumination and a simulation operation block, wherein the space building block is used for obtaining the illumination standard required by the space, obtaining the data block, obtaining the illumination of the real operation space, analyzing the illumination difference of each lighting point, analyzing the quantity and arrangement position of required lamps, and finally recommending the block by the lamps, and providing sales management, order management, online ordering management, order inquiry and financial management services for client users respectively; wherein, the sales management comprises the contents of recording sales information, tracking the information of customized products and the like; the order management comprises the steps of checking the contents of order progress, order charging condition, order logistics information and the like; meanwhile, the digital exhibition hall module also provides product exhibition service for the client user, and the client user can put the photos or the three-dimensional models of the products into the digital exhibition hall module for selective purchase or matching combination;

it should be noted that, although the client module and the producer module are both connected to the same server module through the network, the client module can check the content issued by the producer user; meanwhile, the content released by the manufacturer module can only be checked by the client module, but the manufacturer user can not check the client information before the client user does not place the order, namely, the manufacturer user can only communicate with the client user who has received the order in the system,

the system comprises a manufacturer module, a client side and a server, wherein the manufacturer module is used for receiving a product order of a client side user by a manufacturer user and monitoring the whole production process; the system comprises an examination and order receiving module, a product quotation module, a product order dividing module, a production scheduling module, a bar code order following module, a packaging scanning module, a logistics management module, an installation photographing module and a financial charging module; the examination order receiving module, the product quotation module, the product order dividing module, the production scheduling module, the bar code order following module, the packaging scanning module, the logistics management module, the installation photographing module and the financial charging module are respectively used for the manufacturer user to carry out examination order receiving, product quotation, bar code order following, packaging scanning, logistics management, installation photographing and financial charging operation; examination picture receipt module, bar code receipt module, packing scanning module, logistics management module, installation module of shooing and financial charging module are used for respectively the producer user carries out examination picture receipt, product branch order, production scheduling, bar code receipt, packing scanning, logistics management, installation and shoot and financial charging operation.

The examination and receiving of the picture refers to the examination and verification of an order drawing placed by a client, the product quotation refers to the order quotation of a client user, the product division refers to the decomposition of the customized design drawing of a lamp into the size, the number, the size and other production requirements of each part, the production scheduling refers to the determination of a production line, a workshop, a worker and processes of a product, the bar code following refers to the corresponding arrangement of a bar code or a two-dimensional code on each customized lamp, a production worker scans the bar code or the two-dimensional code attached to the design drawing through a mobile phone to complete the entry of the order progress, each process is respectively scanned by each station after each process is finished, and the user can inquire the order and can also be directly used for the wage calculation of the worker; in addition, the bar code order can also be used for tracking and confirming different parts of the same lamp, because different parts of the same lamp can be produced in different stations, different workshops and even different manufacturers, the problem that the parts are mislaid in the lamp customization industry is caused very easily, and through the bar code order following mode, whether mismatching occurs can be known by scanning the bar codes or the two-dimensional codes of the parts before each assembly, and even if mismatching occurs, a person of responsibility can be traced easily through a positioning scanner, so that the whole bar code management of the customized lamp production is realized, and the whole processes of the parts and the package are error-free, error-free and traceable; meanwhile, after the production and processing of different parts are finished and before the packaging, the bar code of each part can be scanned through a bar code scanning quality inspection program, so that the leakage is avoided; the production flow and the real-time position of the customized lamp can also be monitored.

The logistics management refers to monitoring logistics information of the customized lamp; and the installation photographing refers to inputting the installed picture of the customized lamp to form a new lamp customization case.

The server module is connected with the client module and the manufacturer module through a network; the data storage module is used for storing and managing data generated by the client module and the producer module and providing data query service for the client module and the producer module. Meanwhile, due to the adoption of the unified server module, the price of the same lamp product is unified, the quotation format is standard, automatic calculation is realized, and a client user can search commodity quotation at any time, so that the error in information transmission is avoided, or overdue quotation information is used.

When the internet-based lamp customization system is used, a buyer user simultaneously selects all lamp products of manufacturers using the system or communicates with designers of manufacturers using the system through the client module, so that customized lamp products meeting personalized requirements of the buyer user are designed; when the buyer user selects the product, if the selected customized service is selected, the buyer user contacts a manufacturer to produce the customized lamp or combines the existing lamps; if the buyer user selects the customized service provided for the manufacturer, the customization scheme is converted into a processing drawing in an order processing module of a manufacturer module (the mode of converting the order into the processing drawing is divided into an automatic conversion mode and a manual conversion mode), then the manufacturer produces the customized lamp according to the processing drawing, and the production process and logistics information of the customized lamp are input into the system at any time for the buyer user to inquire.

Further, the client module is a web client and a mobile APP client; wherein the web client is for use by the buyer user on the computer; the mobile APP client is used by the buyer user on a mobile phone or a tablet personal computer, so that the buyer user can finish lamp purchasing and customizing in the middle of movement, and the working efficiency of the lamp customizing industry is greatly improved.

Further, the mobile APP client comprises a mobile phone APP client and a tablet computer APP client; the mobile phone APP client and the tablet computer APP client both comprise an android version client and an IOS version client.

Preferably, in this embodiment, the server module is a cloud server.

Further, the server module comprises a Redis cache module, a MySql database module and an NTFS file module;

the Redis cache module is used for caching frequently accessed data, so that the operating pressure of the MySql database module is reduced; the frequently accessed data comprises the price information of the existing lamp products, the flow information of order making flow, product production flow and the like, the client information and the manufacturer information of the system, designer information and other common basic data and the like.

The MySql database module is used for storing customer information, sales order information, lamp information and production order information;

the NTFS file module is used for storing photo information, and the photo information comprises a lamp photo and/or an installation site photo.

Further, the client module further comprises a product evaluation module, and the product evaluation module is used for evaluating the completed orders by the buyer user, including the evaluation of the lamp product, the evaluation of the designer, the evaluation of the client and the evaluation of the manufacturer.

The client module also comprises a demand release module, and the demand release module is used for releasing the demand of the buyer user;

the producer module comprises a bidding module; the bidding module is used for bidding by the client user or the producer user according to the requirements of the buyer user.

Compared with the prior art, the invention has the advantages that: the lamp customizing mode is innovated for a user, scene experience service is provided, a lighting scheme is provided according to the real operation space of the user, and the user can intuitively feel the lighting effect of the lamp and the matching effect of the scene. The beneficial effects are provided by platform independent furniture, buildings, decorative element data storage systems, display systems and output systems. The lamp scheme provided by the invention is provided according to the lighting standard, has good scientific basis, better meets the actual requirements of users, and has the beneficial effect provided by the electronic elements contained in the wireless illuminometer and the platform operation system.

Claims (8)

1. The invention provides an intelligent LED lamp customizing system and provides a method for providing a personalized customizing scheme by using the intelligent LED lamp customizing system. Which is characterized by comprising the following steps of,

the client module is used for the buyer user to select a designer, a design scheme and a manufacturer; the client module can be used for the buyer user to inquire the related information of the customized lamp; the method comprises the steps of creating a space plate, obtaining a standard of illumination required by a space, obtaining a data plate, obtaining illumination of a real operation space, simulating an operation plate, analyzing the illumination difference value of each lighting point, analyzing the number and arrangement positions of required lamps, finally recommending the plate by the lamps, and recommending a lamp scheme

The manufacturer module is used for designing a scheme by a manufacturer user according to the personalized requirements of the buyer user and customizing a corresponding lamp for the buyer;

the server module is connected with the client module and the manufacturer module through a network; the data query system is used for storing and managing data generated by the client module and the producer module and providing data query service for the client module and the producer module.

2. The wireless illuminometer comprises an optical sensor, a control unit, a microprocessor, a driving circuit of a display screen, the display screen and a wireless network module

The optical sensor is used for receiving the space illumination; the microprocessor converts the light signal into an illumination value and transmits the illumination value outwards; the control unit is connected with the microprocessor and is provided with a plurality of cases which can control the microprocessor; the driving circuit of the display screen is linked with the microprocessor and the display screen and is used for transmitting the illumination value; the display screen is used for displaying the illumination value; the wireless network module is used for uploading the detected illumination values to the intelligent LED lamp customizing platform.

3. The intelligent LED lamp customization platform comprises an independent lamp data storage system, an independent lamp, a building, a decorative element data storage system, a display system, an operation system and an output system

The system divides the lamp customizing flow into five plates. And respectively creating space, matching scenes, acquiring data, performing analog operation and recommending lamps according to the time sequence.

4. Space creation tiles: selecting space types (catering, shops, offices and the like), selecting operation types (subdividing different operation types), inputting the length, the width and the height of a space, inputting geographic positions and creating a 3-dimensional space by the volume of the system.

5. Scene collocation plate: the system provides a whole set of scene schemes according to the user space data, and the user selects and applies a set of schemes after screening according to the style and the color system. The whole set of scheme comprises building elements, lamp elements and material elements. The user can move, delete, zoom and other operations on elements in the scheme according to actual conditions so as to be more fit with actual frequent scenes.

Building elements (wall painting, beam column, ceiling and door and window) are selected from independent lamps, buildings and decorative element libraries, lamps are selected according to styles, color systems and types, and lamp materials are selected. The spatial position arrangement is carried out on various selection elements, and for facilitating the position arrangement of a user, a 2D view and a 3D view are provided for the user to switch.

6. Obtaining a data plate: and the user applies for the illuminometer from the intelligent LED lamp customization platform to measure the lighting data of the operating space. Dividing a measuring area into a plurality of square grids (as shown in the figure) according to platform operation guidance, acquiring illumination data of the center of each grid point, uploading the illumination data to a platform, and recovering an illuminometer by the platform after measurement.

7. And (3) simulating an operation plate: the platform simulates the illumination value of each network point in the created three-dimensional space, and according to the national indoor place illumination standard, when the illumination value of a certain area does not meet the standard, the platform supplements the lamp simulation layout according to the illumination difference value (the luminous flux of each lamp is fixed) so that the space illumination of the operation place meets the national illumination standard, and then screens the lamp schemes meeting the difference value to provide choices for users. Lighting standards for each space: (the data are from GB 50034-2013 architectural lighting design standards).

8. The recommended plate of the lamp is as follows: and after the platform finishes the simulation operation, the user can screen the lamp scheme according to the style and the color system and then purchase the lamp.

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