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ADD-ON OVERHEAT PROTECTION DEVICE FOR CHEMICAL LABORATORY PADDLE MIXER USING NRF AND IOT TECHNOLOGY WITH WPAN INTEGRATION
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Abstract
Information
Inventors
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Specification
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ORDINARY APPLICATION
Published
Filed on 23 November 2024
Abstract
An Add-On Overheat Protection Device for Chemical Laboratory Paddle Mixer Using nRF and IoT Technology with WPAN Integration This invention introduces an advanced overheat protection device for chemical laboratory paddle mixers, leveraging nRF and IoT technology with WPAN integration. The system features an AOTD_CLPMote with a Cortex-A710 Processor Board, MLX90614 Temperature Sensor, and Actuator for real-time monitoring and protection, and an AORD_CLPMote equipped with a NuttyFiWifi Module and HMI Display for remote control and cloud integration. Data is transmitted wirelessly between the devices and analyzed via machine learning algorithms on a cloud platform, enabling early detection of overheating, actionable insights, and enhanced safety in laboratory operations.
Patent Information
Application ID | 202411091316 |
Invention Field | COMPUTER SCIENCE |
Date of Application | 23/11/2024 |
Publication Number | 49/2024 |
Inventors
Name | Address | Country | Nationality |
---|---|---|---|
GINNI NIJHAWAN | LOVELY PROFESSIONAL UNIVERSITY, JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
DR. DEEPAK PRASHAR | LOVELY PROFESSIONAL UNIVERSITY, JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
DR. NAVNEET KHURANA | LOVELY PROFESSIONAL UNIVERSITY, JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
GAZAL SHARMA | LOVELY PROFESSIONAL UNIVERSITY, JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
DR. CHANDRA MOHAN | LOVELY PROFESSIONAL UNIVERSITY, JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
TARA SINGLA | LOVELY PROFESSIONAL UNIVERSITY, JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
Applicants
Name | Address | Country | Nationality |
---|---|---|---|
LOVELY PROFESSIONAL UNIVERSITY | JALANDHAR-DELHI G.T. ROAD, PHAGWARA, PUNJAB-144 411, INDIA. | India | India |
Specification
Description:FIELD OF THE INVENTION
This invention relates to Add-On Overheat Protection Device for Chemical Laboratory Paddle Mixer Using nRF and IoT Technology with WPAN Integration
BACKGROUND OF THE INVENTION
The matter under consideration concerns enhancing safety procedures and operational efficiency in chemical laboratory environments, specifically focusing on reducing the likelihood of overheating incidents in paddle mixers. Current systems are deficient in their ability to monitor and control in real time, which presents inherent risks such equipment failures, accidents, and disruptions to operations.
RU2445077C2 - The invention refers to a pharmaceutical composition for pain management, as well as to application of said composition for making a drug for pain management. The declared composition contains a number of multilayer pills containing a water-soluble core, an antagonist layer containing HCI naltrexone and coating the core, an isolating polymer layer coating the antagonist layer, an agonist layer coating the isolating polymer layer, a delayed-release shell coating the agonist layer, and an agent layer regulating osmotic pressure and containing sodium chloride immediately under the agonist layer. The isolating polymer layer contains acrylic-methacrylic ester polymers with quaternary ammonium groups, sodium lauryl sulphate in the amount of 1.6 wt % to 6.3 wt %, and talc in the amount of 75 wt % to 125 wt % in relation to acrylic-methacrylic ester polymers with quaternary ammonium groups. The agonist layer contains morphine sulphate and hydroxypropyl cellulose, while sodium lauryl sulphate is found in the multilayer pills only in the isolating polymer layer.
Research Gap: The wireless innovation for overheat protection for Chemical Laboratory Paddle Mixer using nRF and IoT Technology is the novelty of the system.
US20200316614A1 - Coal fines are processed by flotation separation to separate coal particles from ash-forming mineral content particles. Coal fines are mixed with water under high shear mixing conditions to form an aqueous slurry of coal fines containing between 15 wt. % and 55 wt. % coal fines. The aqueous slurry is introduced into a coal flotation cell to separate coal particles from ash-forming mineral content particles by flotation separation, wherein the coal fines have a particle size less than 100 µm, and more preferably less than 50 µm. Bubbles are generated in the coal flotation cell having a bubble size and bubble quantity selected to float the coal particles and to form a coal-froth containing at least 15 wt. % solid particles. The solid particles include coal particles and ash-forming mineral content particles. The coal-froth is collected for further processing.
Research Gap: The wireless innovation for overheat protection for Chemical Laboratory Paddle Mixer using nRF and IoT Technology is the novelty of the system.
SUMMARY OF THE INVENTION
This summary is provided to introduce a selection of concepts, in a simplified format, that are further described in the detailed description of the invention.
This summary is neither intended to identify key or essential inventive concepts of the invention and nor is it intended for determining the scope of the invention.
This technological breakthrough combines wireless technology with cloud-based monitoring and control systems to offer a state-of-the-art method of improving safety and productivity in chemical laboratory settings. Its ability to evaluate data patterns and provide predicted insights is greatly enhanced by the integration of machine learning algorithms, which promotes proactive maintenance strategies and raises operational standards in laboratory settings.
To further clarify advantages and features of the present invention, a more particular description of the invention will be rendered by reference to specific embodiments thereof, which is illustrated in the appended drawings. It is appreciated that these drawings depict only typical embodiments of the invention and are therefore not to be considered limiting of its scope. The invention will be described and explained with additional specificity and detail with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
The illustrated embodiments of the subject matter will be understood by reference to the drawings, wherein like parts are designated by like numerals throughout. The following description is intended only by way of example, and simply illustrates certain selected embodiments of devices, systems, and methods that are consistent with the subject matter as claimed herein, wherein:
FIGURE 1: SYSTEM ARCHITECTURE
The figures depict embodiments of the present subject matter for the purposes of illustration only. A person skilled in the art will easily recognize from the following description that alternative embodiments of the structures and methods illustrated herein may be employed without departing from the principles of the disclosure described herein.
DETAILED DESCRIPTION OF THE INVENTION
The detailed description of various exemplary embodiments of the disclosure is described herein with reference to the accompanying drawings. It should be noted that the embodiments are described herein in such details as to clearly communicate the disclosure. However, the amount of details provided herein is not intended to limit the anticipated variations of embodiments; on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the scope of the present disclosure as defined by the appended claims.
It is also to be understood that various arrangements may be devised that, although not explicitly described or shown herein, embody the principles of the present disclosure. Moreover, all statements herein reciting principles, aspects, and embodiments of the present disclosure, as well as specific examples, are intended to encompass equivalents thereof.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms "a"," "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used herein, specify the presence of stated features, integers, steps, operations, elements and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components and/or groups thereof.
It should also be noted that in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed concurrently or may sometimes be executed in the reverse order, depending upon the functionality/acts involved.
In addition, the descriptions of "first", "second", "third", and the like in the present invention are used for the purpose of description only, and are not to be construed as indicating or implying their relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" and "second" may include at least one of the features, either explicitly or implicitly.
Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which example embodiments belong. It will be further understood that terms, e.g., those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.
This technological breakthrough combines wireless technology with cloud-based monitoring and control systems to offer a state-of-the-art method of improving safety and productivity in chemical laboratory settings. Its ability to evaluate data patterns and provide predicted insights is greatly enhanced by the integration of machine learning algorithms, which promotes proactive maintenance strategies and raises operational standards in laboratory settings.
BEST METHOD OF WORKING
1. To ensure optimal performance and product consistency in chemical laboratory paddle mixers, the VQCDM_PQMote, which is equipped with the Cortex-A710 Processor Board, nRF Module, MLX90614 Temperature Sensor, Actuator, RTC, Indicator, and Power Supply, is used to facilitate precise quality control by monitoring and analyzing Temperature parameter in real-time.
2. To enable remote monitoring and control of chemical laboratory paddle mixers, the AORD_CLPMote, which is outfitted with a Cortex-A710 Processor Board, nRF Module, HMI Display, NuttyFiWifi Module, and Power Supply, is utilized. This allows for real-time access to operational status and data analysis for improved efficiency and safety.
3. The Cortex-A710 Processor Board, which is integrated into both motes, serves as the central processing unit. It manages data processing chores and runs intricate algorithms to provide real-time temperature parameter monitoring, control, and analysis in chemical laboratory paddle mixers.
4. For improved safety and operational efficiency in chemical laboratory paddle mixers, the nRF Module, which is integrated into both of the motes, is utilized to enable wireless communication for data transmission between the various components of the innovation. This allows for remote monitoring, control, and seamless integration with cloud-based analytics.
5. The VQCDM_PQMote's integrated MLX90614 Temperature Sensor is used to monitor and identify temperature levels in chemical laboratory paddle mixers. It provides vital information for identifying overheating incidents and initiates the appropriate safety and equipment damage prevention measures.
6. To ensure a safe working environment, the actuator built into the VQCDM_PQMote is utilized to quickly shut down chemical laboratory paddle mixers in the event of overheating. This reduces potential dangers and protects the integrity of the equipment.
7. The AORD_CLPMote's embedded NuttyFiWifi Module allows internet connectivity, which makes it possible to view and control chemical laboratory paddle mixers remotely. It also seamlessly integrates with cloud-based platforms to provide real-time monitoring and analysis.
8. The HMI Display, which is interfaced with the AORD_CLPMote, is utilized to give operators an easy-to-use interface via which they may view real-time data and important alerts, helping prompt decision-making and effective operation of chemical laboratory paddle mixers.
ADVANTAGES OF THE INVENTION
1. This innovation's VQCDM_PQMote, which continually monitors and analyzes real-time temperature variations, is essential to guaranteeing accurate quality control. By doing this, it helps to keep chemical laboratory paddle mixers operating at peak efficiency and producing consistent results.
2. This innovation provides the possibility to remotely monitor and manage chemical laboratory paddle mixers through the use of the AORD_CLPMote. By providing users with access to data analysis and real-time operational status updates, this functionality improves operational efficiency and safety protocols.
3. The wireless data transmission made possible by the nRF Module used in this innovation allows for smooth connectivity between multiple components. Its integration improves safety standards and operating efficiency in chemical laboratory paddle mixers by enabling remote monitoring, control, and simple integration with cloud-based analytics.
4. The system's integrated MLX90614 Temperature Sensor performs the vital function of identifying and keeping track of the temperature inside chemical laboratory paddle mixers. It facilitates the early detection of overheating incidents by offering crucial data, allowing for quick responses to preserve safety and avert possible equipment damage.
5. The Actuator is an essential safety component that, in the case of an overheat, quickly shuts off chemical laboratory paddle mixers. By taking this proactive step, possible dangers are reduced and equipment integrity is maintained, maintaining a safe working environment.
6. The AORD_CLPMote's internet communication is made possible by the NuttyFiWifi Module, which enables remote access to and operation of chemical laboratory paddle mixers. It also easily interacts with cloud-based platforms, enabling real-time monitoring and analysis to improve operational effectiveness and safety procedures even further.
, Claims:1. An Add-On Overheat Protection Device for Chemical Laboratory Paddle Mixer Using nRF and IoT Technology with WPAN Integration, comprises an AOTD_CLPMote (101) equipped with a Cortex-A710 Processor Board (102), nRF Module (103), MLX90614 Temperature Sensor (104), Actuator (105), RTC Module (106), Indicator (107), and Power Supply (108), and an AORD_CLPMote (201) equipped with a Cortex-A710 Processor Board (202), nRF Module (203), HMI Display (204), NuttyFiWifi Module (205), and Power Supply (206),together, these devices enable real-time monitoring, wireless communication, and IoT-based remote control to ensure enhanced safety and operational efficiency in chemical laboratory paddle mixers.
2. The device, as claimed in Claim 1, wherein the nRF Module (103, 203) facilitates seamless wireless communication between the AOTD_CLPMote and AORD_CLPMote, ensuring efficient data transmission for real-time monitoring and remote control of paddle mixers.
3. The device, as claimed in Claim 1, wherein the MLX90614 Temperature Sensor (104) integrated into the AOTD_CLPMote monitors temperature levels, providing critical data for early detection of overheating events and enabling prompt safety measures.
4. The device, as claimed in Claim 1, wherein the Actuator (105) integrated into the AOTD_CLPMote provides rapid shutdown of the paddle mixer upon detecting overheat conditions, ensuring equipment safety and preventing damage.
5. The device, as claimed in Claim 1, wherein the NuttyFiWifi Module (205) in the AORD_CLPMote enables internet connectivity, facilitating remote monitoring, control, and integration with cloud-based platforms for enhanced operational efficiency.
6. The device, as claimed in Claim 1, wherein the RTC Module (106) in the AOTD_CLPMote ensures precise scheduling and timekeeping for reliable monitoring and control of the paddle mixer in laboratory operations.
7. The device, as claimed in Claim 1, wherein the HMI Display (204) on the AORD_CLPMote provides operators with a user-friendly interface to view real-time data and alerts, supporting proactive decision-making and operational management.
8. The device, as claimed in Claim 1, wherein IoT cloud integration processes data from the devices using advanced machine learning algorithms to generate actionable insights, enhancing safety protocols and operational performance.
Documents
Name | Date |
---|---|
202411091316-COMPLETE SPECIFICATION [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-DECLARATION OF INVENTORSHIP (FORM 5) [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-DRAWINGS [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-EDUCATIONAL INSTITUTION(S) [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-EVIDENCE FOR REGISTRATION UNDER SSI [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-EVIDENCE FOR REGISTRATION UNDER SSI(FORM-28) [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-FORM 1 [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-FORM FOR SMALL ENTITY(FORM-28) [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-FORM-9 [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-POWER OF AUTHORITY [23-11-2024(online)].pdf | 23/11/2024 |
202411091316-REQUEST FOR EARLY PUBLICATION(FORM-9) [23-11-2024(online)].pdf | 23/11/2024 |
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