WO2024089487A1

WO2024089487A1 - Online perfume and cologne testing device using internet of things (iot)

Info

Publication number: WO2024089487A1
Application number: PCT/IB2023/058967
Authority: WO
Inventors: Mahyar ESLAMI; Rouhollah KAMALI
Original assignee: Eslami Mahyar; Kamali Rouhollah
Priority date: 2023-09-10
Filing date: 2023-09-10
Publication date: 2024-05-02

Abstract

Our invention, the "Online Perfume and Cologne Testing Device Using Internet of Things (IoT)," comprises a Cestrum smart gadget and an associated online platform named Cestrum. Key Features of the Invention: Connectivity through IoT, Variety of Fragrances, Online Platform Integration, User-Friendly Testing, Multiple Tests and AI Assistance. This device consists of two main parts: the control board and cartridges. Each device comprises one control board and 1 to 10 cartridges. Each cartridge contains 40 units for holding different fragrances. The overall operation of the device is the control board receives information from the website and then commands the selected cartridge to activate the corresponding channel for 2 seconds, initiating the spray of the fragrance stored in it.

Description

Online Perfume and Cologne Testing Device Using Internet of Things (IoT)

G06F7/00; A61L9/015; C11D3/50; G01N33/00;

The prior art includes patents such as "Perfume Information Processing Device, Perfume Information Processing System, and Perfume Conversion Table Generating Method" (United States Patent 7526500). This patent focuses on perfume information processing but does not address the specific challenge of online perfume testing.

Another relevant patent is "Method, Device, and System for Coding, Processing, and Decoding Odor Information" (United States Patent Application 20050160789). This patent discusses odor analysis and coding but does not offer a solution for online perfume testing.

A further patent is "Method and Apparatus for Generating Smell" (United States Patent Application 20040101447), which outlines a method for generating odors under computer control. While this patent touches on odor generation, it does not address the issue of testing perfumes online.

These prior art patents provide insights into odor-related technologies but do not present a comprehensive solution to the specific challenge of allowing customers to virtually test perfumes and colognes online before making a purchase. Our invention, the "Online Perfume and Cologne Testing Device Using Internet of Things (IoT)," bridges this gap by introducing a practical and innovative solution for online perfume testing and selection.

In recent years, online shopping has become the norm, especially during times such as the COVID-19 pandemic when people were hesitant to leave their homes. However, the online purchase of perfumes and colognes faced challenges as customers were unable to physically test these fragrances before buying them. This uncertainty deterred many potential buyers from making online perfume purchases.

Today, thanks to advancements in technology, online shopping has become more accessible and appealing to everyone. This invention leverages the Internet of Things (IoT) and the Cestrum smart device to enable customers to test their desired fragrances before making an online purchase. By offering a wide range of fragrances for men, women, and more, with cartridge capacities ranging from 30 to 400 Scents, this invention transforms the online perfume shopping experience. Key Features of the Invention: Connectivity through IoT, Variety of Fragrances, Online Platform Integration, User-Friendly Testing, Multiple Tests and AI Assistance. The overall operation of the device is the control board receives information from the website and then commands the selected cartridge to activate the corresponding channel for 2 seconds, initiating the spray of the fragrance stored in it.

In today's world, a significant portion of the population makes their purchases online, primarily via the internet. These online purchases occur through various channels, including websites, Instagram pages, Telegram, and, in some cases, WhatsApp. However, before finalizing an online purchase, customers often experience stress and a lack of trust in the products or websites. This hesitancy was particularly prevalent in the early days of online shopping when consumers were unsure about the quality of the products and the reliability of the websites.

Today, thanks to advancements in technology, online shopping has become more accessible and appealing to everyone. This invention leverages the Internet of Things (IoT) and the Cestrum smart device to enable customers to test their desired fragrances before making an online purchase. By offering a wide range of fragrances for men, women, and more, with cartridge capacities ranging from 30 to 400 Scents, this invention transforms the online perfume shopping experience.

Solution of problem

Our invention, the "Online Perfume and Cologne Testing Device Using Internet of Things (IoT)," comprises a Cestrum smart gadget and an associated online platform named Cestrum. This device addresses the challenge of online perfume shopping by allowing customers to test fragrances virtually before making a purchase.

Key Features of the Invention:

Connectivity through IoT: Cestrum connects to the internet via the Internet of Things (IoT), enabling seamless integration with the online platform.

Variety of Fragrances: The device is available in various types for different perfume categories, such as men's and women's fragrances, with a capacity of 30 to 400 perfume capsules (expandable to over 300 with minor technical modifications).

Online Platform Integration: The Cestrum website provides customers with profiles, an AI voice assistant, and user comments, enhancing the shopping experience.

User-Friendly Testing: Users can test their selected perfumes by pressing the test button on the Cestrum gadget, which emits the fragrance through an LED nozzle. The method of spray is similar to a humidifier, creating a fine mist of the perfume.

Multiple Tests: Users can test each perfume up to five times (Optional), facilitating informed purchase decisions. Additionally, gadget holders enjoy discounts on online store purchases and can switch cartridges to test different perfume collections.

AI Assistance: The use of artificial intelligence on the website enables data analysis to predict customer behavior and provide tailored product recommendations.

Device Performance Summary:

The purpose of this project is to design and manufacture a fragrance spray device with internet controllability. This device consists of two main parts: the control board and cartridges. Each device comprises one control board and 1 to 10 cartridges. Each cartridge contains 40 units for holding different fragrances. The overall operation of the device is as follows: the control board receives information from the website and then commands the selected cartridge to activate the corresponding channel for 2 seconds, initiating the spray of the fragrance stored in it.

Section 2 (Control Board):

The control board of the device consists of several key components, among which the most important are:

Power supply and battery section

Processor and Wi-Fi chip

Display LEDs

RS485 interface

The function of this board is to operate in two modes, server and client. Initially, it needs to be set up in server mode to configure device settings such as modem information, website address, the number of cartridges, and more. Once the settings are applied, the board is switched to client mode to establish a connection to the modem and gain internet access, ultimately communicating with the respective website. The main control board communicates with the cartridges via the physical RS485 interface and Modbus protocol, transmitting the necessary commands to activate the channels and receiving confirmation messages from them.

Section 3 (Cartridge Board):

In general, the cartridge board consists of the following two crucial components:

RS485 interface

Piezoelectric actuator drivers

The primary function of this board is to receive commands from the main control board and activate the corresponding channels. It connects to the main board through the physical RS485 interface and Modbus protocol. After receiving a command, the driver for the selected channel becomes active, causing the associated piezoelectric actuator to vibrate and initiate the spraying of the liquid inside the reservoir.

To increase the number of cartridges, simply connect a new cartridge board to the previous one using a designated cable. This allows the new board to become part of the network. After configuring the settings on the main control board and adding the new cartridge board through software, the channels of this cartridge will also be accessible.

Advantage effects of invention

Online perfume and cologne testing

Access to a wide variety of fragrances online

Time savings for customers

Comparative product analysis

24/7 accessibility

High-quality products, exceptional services, and competitive pricing

: Image of the device with 4 cartridges

: The image of the lower part of the device

: Image of one of the cartridges

: Image of the upper part of the device

: Image of the upper and inner part of the device

: 1. Body and lower part of the device 2. Cartridge 3. Body and upper part of the device 4. Power cable input

: 1. Body and lower part of the device 4. Power cable input 5. Connecting screws 6. Interface plates between cartridges

: 2. The body of a cartridge 5. Connecting screws for assembly and disassembly of plates 9. Aroma units of perfumes 7 and 8. Interface plates between cartridges 10. Cartridge board

: 3. The body of the upper part of the device 11. Device on or off button 12. Magnet 13. Status lights

: 14. Main board 15. Status lights and magnets

Examples

The implementation of the "Online Perfume and Cologne Testing Device Using Internet of Things (IoT)" involves the following steps:

Purchase the Cestrum gadget from our online store.

Activate the gadget through the Cestrum website.

Select the desired perfume category and insert the appropriate cartridge into the gadget.

Sign in to the Cestrum website to access profiles, AI assistance, and user comments.

Press the test button on the Cestrum gadget to emit the selected fragrance via the LED nozzle.

Users can test each perfume up to five times for informed decision-making.

Enjoy discounts on online store purchases as a gadget holder and switch cartridges to test different perfume collections.

Utilize AI recommendations for a personalized shopping experience.

This invention is applicable to the perfume industry, serving as a solution for both consumers and producers. It enhances the online perfume shopping experience, increases consumer trust, and opens up new distribution channels for perfume manufacturers and distributors.

Claims

A Cestrum smart gadget and an associated online platform named Cestrum, which this device addresses the challenge of online perfume shopping by allowing customers to test fragrances virtually before making a purchase. This device consists of two main parts: the control board and cartridges and the key features of the invention are, Connectivity through IoT, Variety of Fragrances, Online Platform Integration, User-Friendly Testing, Multiple Tests and AI Assistance.
According to claim 1, Cestrum connects to the internet via the Internet of Things (IoT), enabling seamless integration with the online platform.
According to claim 1, The device is available in various types for different perfume categories, such as men's and women's fragrances, with a capacity of 30 to 400 perfume capsules (expandable to over 300 with minor technical modifications).
According to claim 1, The Cestrum website provides customers with profiles, an AI voice assistant, and user comments, enhancing the shopping experience.
According to claim 1, Users can test their selected perfumes by pressing the test button on the Cestrum gadget, which emits the fragrance through an LED nozzle. The method of spray is similar to a humidifier, creating a fine mist of the perfume.
According to claim 1, Users can test each perfume up to five times (Optional), facilitating informed purchase decisions. Additionally, gadget holders enjoy discounts on online store purchases and can switch cartridges to test different perfume collections.
According to claim 1, The use of artificial intelligence on the website enables data analysis to predict customer behavior and provide tailored product recommendations.
According to claim 1, Each Cestrum device comprises one control board and 1 to 10 cartridges. Each cartridge contains 40 units for holding different fragrances.
According to claim 8, The function of main board (control board) is to operate in two modes, server and client. Initially, it needs to be set up in server mode to configure device settings such as modem information, website address, the number of cartridges, and more. Once the settings are applied, the board is switched to client mode to establish a connection to the modem and gain internet access, ultimately communicating with the respective website.
According to claim 8, The primary function of cartridge board is to receive commands from the main control board and activate the corresponding channels. It connects to the main board through the physical RS485 interface and Modbus protocol. After receiving a command, the driver for the selected channel becomes active, causing the associated piezoelectric actuator to vibrate and initiate the spraying of the liquid inside the reservoir.