PORTABLE APPLICATOR FOR FLOWABLE MATERIALS

Abstract

ABSTRACT Portable Applicator for Flow able Materials The present disclosure introduces a portable applicator for flowable materials 100 designed for precise and controlled application of liquids, gels, pastes, and powders across various industries. It features a main housing unit 102 to provide structural support, a flowable material cartridge 104 with an auto-recognition system for optimized dispensing, and a dispensing mechanism 106 supporting multi-mode operation for controlled flow. The nozzle system 108 comprises interchangeable nozzles, while control interface 110 enables real-time monitoring and adjustments. A power system 112 supports dual manual and motorized modes, and a wireless connectivity module 114 allows remote operation. Additional components are material consumption tracker 116, an integrated cleaning and sterilization system 118 environmental protection features 120, safety features 122, a temperature regulation system 124, an ergonomic design with adjustable grip 126, integrated mixing chamber 128, real-time feedback sensors 130, and modular add-ons 132. Reference Fig 1

Specification

Description:Portable Applicator for Flowable Materials
TECHNICAL FIELD
[0001] The present innovation relates to portable devices for the precise and controlled application of flowable materials across various industries.

BACKGROUND

[0002] The precise application of flowable materials-such as liquids, gels, pastes, and powders-is crucial in industries like construction, healthcare, cosmetics, agriculture, and food processing. Traditional methods for applying these materials often rely on manual tools like brushes, rollers, or squeeze bottles, or on bulky, stationary systems. While manual methods are accessible and simple, they frequently result in inconsistent application, material wastage, and operator fatigue. On the other hand, stationary systems provide better precision and control but are impractical for fieldwork, remote locations, or on-the-go applications due to their size and lack of portability. Portable applicators available in the market address some of these issues but are often limited in their versatility, designed for specific materials, or lacking the precision required for tasks like agricultural pesticide application or healthcare product dispensing.

[0003] The present invention overcomes these challenges by offering a Portable Applicator for Flowable Materials, a device designed for precision, versatility, and portability. Unlike existing solutions, this invention accommodates various material types-liquids, gels, pastes, and powders-through a modular cartridge and nozzle system. It features multi-mode dispensing mechanisms, including piston-driven, pump-action, and gravity-fed options, adaptable to different material viscosities. With automatic flow calibration, integrated material usage tracking, and ergonomic design, the applicator ensures consistent application while minimizing waste.
[0004] The novelty of the invention lies in its combination of advanced features: interchangeable cartridges with auto-recognition, dual-power operation (manual and motorized), integrated cleaning systems for hygienic use, and wireless connectivity for remote control and monitoring. Its rugged design ensures durability in field environments, making it suitable for diverse applications, from applying adhesives on construction sites to precision dispensing of fertilizers in agriculture. By addressing the drawbacks of existing systems and providing unmatched versatility and sustainability, this invention represents a significant leap in the efficient and responsible use of flowable materials.

OBJECTS OF THE INVENTION

[0005] The primary object of the invention is to provide a portable applicator for precise and controlled application of flowable materials, ensuring efficiency and ease of use in diverse industries.

[0006] Another object of the invention is to enhance material application accuracy by offering interchangeable nozzles and automatic flow calibration to suit various tasks and materials.

[0007] Another object of the invention is to minimize material wastage through a precision dispensing mechanism, promoting responsible consumption and reducing environmental impact.

[0008] Another object of the invention is to offer versatility by enabling the application of liquids, gels, pastes, and powders with a single device, making it suitable for construction, healthcare, cosmetics, agriculture, and food processing.

[0009] Another object of the invention is to provide a lightweight and ergonomic device that ensures portability and ease of operation, even in fieldwork or remote locations.
[00010] Another object of the invention is to enhance user convenience through dual-power operation, allowing both manual and motorized use for different application requirements.

[00011] Another object of the invention is to improve hygiene and reduce contamination risk with a replaceable cartridge system and integrated cleaning mechanisms, particularly in healthcare and food-grade applications.

[00012] Another object of the invention is to integrate smart technology, such as wireless connectivity and material usage tracking, for better monitoring, control, and maintenance.

[00013] Another object of the invention is to ensure durability and reliability with a rugged, weather-resistant design suitable for outdoor and harsh environmental conditions.

[00014] Another object of the invention is to support sustainability by using eco-friendly materials, promoting reusability, and aligning with global efforts to optimize resource usage and reduce waste.

SUMMARY OF THE INVENTION

[00015] In accordance with the different aspects of the present invention, portable applicator for flow able materials is presented. It is designed for precise and controlled application of liquids, gels, pastes, and powders across various industries. It features interchangeable cartridges, multi-mode dispensing mechanisms, and automatic flow calibration to ensure accuracy and minimize waste. The device is lightweight, ergonomic, and rugged, making it suitable for fieldwork and diverse environmental conditions. With dual-power operation, integrated cleaning systems, and smart technology for tracking and monitoring, it enhances user convenience and operational efficiency. The invention promotes sustainability and adaptability, offering a versatile solution for construction, healthcare, agriculture, cosmetics, and food processing applications.

[00016] Additional aspects, advantages, features and objects of the present disclosure would be made apparent from the drawings and the detailed description of the illustrative embodiments constructed in conjunction with the appended claims that follow.

[00017] It will be appreciated that features of the present disclosure are susceptible to being combined in various combinations without departing from the scope of the present disclosure as defined by the appended claims.

BRIEF DESCRIPTION OF DRAWINGS
[00018] The summary above, as well as the following detailed description of illustrative embodiments, is better understood when read in conjunction with the appended drawings. For the purpose of illustrating the present disclosure, exemplary constructions of the disclosure are shown in the drawings. However, the present disclosure is not limited to specific methods and instrumentalities disclosed herein. Moreover, those in the art will understand that the drawings are not to scale. Wherever possible, like elements have been indicated by identical numbers.

[00019] Embodiments of the present disclosure will now be described, by way of example only, with reference to the following diagrams wherein:

[00020] FIG. 1 is component wise drawing for portable applicator for flow able materials.

[00021] FIG 2 is working methodology of portable applicator for flow able materials.

DETAILED DESCRIPTION

[00022] The following detailed description illustrates embodiments of the present disclosure and ways in which they can be implemented. Although some modes of carrying out the present disclosure have been disclosed, those skilled in the art would recognise that other embodiments for carrying out or practising the present disclosure are also possible.

[00023] The description set forth below in connection with the appended drawings is intended as a description of certain embodiments of portable applicator for flowable materials and is not intended to represent the only forms that may be developed or utilised. The description sets forth the various structures and/or functions in connection with the illustrated embodiments; however, it is to be understood that the disclosed embodiments are merely exemplary of the disclosure that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimised to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.

[00024] While the disclosure is susceptible to various modifications and alternative forms, specific embodiment thereof has been shown by way of example in the drawings and will be described in detail below. It should be understood, however, that it is not intended to limit the disclosure to the particular forms disclosed, but on the contrary, the disclosure is to cover all modifications, equivalents, and alternatives falling within the scope of the disclosure.

[00025] The terms "comprises", "comprising", "include(s)", or any other variations thereof, are intended to cover a non-exclusive inclusion, such that a setup, or system that comprises a list of components or steps does not include only those components or steps but may include other components or steps not expressly listed or inherent to such setup or system. In other words, one or more elements in a system or apparatus preceded by "comprises... a" does not, without more constraints, preclude the existence of other elements or additional elements in the system or apparatus.

[00026] In the following detailed description of the embodiments of the disclosure, reference is made to the accompanying drawings and which are shown by way of illustration-specific embodiments in which the disclosure may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the disclosure, and it is to be understood that other embodiments may be utilized and that changes may be made without departing from the scope of the present disclosure. The following description is, therefore, not to be taken in a limiting sense.

[00027] The present disclosure will be described herein below with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the description with unnecessary detail.

[00028] Referring to Fig. 1, portable applicator for flowable materials 100 is disclosed in accordance with one embodiment of the present invention. It comprises of main housing unit 102, flowable material cartridge 104, dispensing mechanism 106, nozzle system 108, control interface 110, power system 112, wireless connectivity module 114, material consumption tracker 116, integrated cleaning and sterilization system 118, environmental protection features 120, safety features 122, temperature regulation system 124, ergonomic design with adjustable grip 126, integrated mixing chamber 128, real-time feedback sensors 130, modular add-ons 132

[00029] Referring to Fig. 1, the present disclosure provides details of a portable applicator for flowable materials 100. It is a versatile device designed for the precise and controlled application of liquids, gels, pastes, and powders across various industries. The applicator enables efficient material dispensing, reduces waste, and enhances portability for field-based and remote applications. In one embodiment, the portable applicator for flowable materials 100 may be provided with the following key components such as main housing unit 102, flowable material cartridge 104, and dispensing mechanism 106, ensuring durability, compatibility, and precision. The system incorporates nozzle system 108 and control interface 110 for adjustable application settings and monitoring. It also features power system 112 for dual manual and motorized operation and wireless connectivity module 114 for smart control and diagnostics. Additional components such as material consumption tracker 116 and integrated cleaning and sterilization system 118 enhance sustainability and hygiene during use.

[00030] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with main housing unit 102, which serves as the structural framework for the device. It is designed to house and protect internal components, including the flowable material cartridge 104 and dispensing mechanism 106, ensuring durability and resistance to environmental factors. The ergonomic design of the main housing unit 102 provides comfortable handling, reducing user fatigue during prolonged applications. It also incorporates mounting points for interchangeable components like the nozzle system 108 and control interface 110. The rugged construction ensures the applicator's suitability for demanding outdoor conditions, enabling reliable operation in remote locations. By integrating with the power system 112, the housing unit 102 supports the seamless functionality of both manual and motorized modes, ensuring versatility for different applications.

[00031] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with flowable material cartridge 104, which stores the material to be dispensed. It is modular and replaceable, allowing users to easily switch between materials such as liquids, gels, pastes, and powders. The auto-recognition feature of the flowable material cartridge 104, supported by the control interface 110, ensures that the dispensing mechanism 106 automatically adjusts flow rate and pressure based on the material type. This component also minimizes wastage by utilizing its internal design to prevent material residue. The integration of the flowable material cartridge 104 with the nozzle system 108 ensures consistent and precise material flow for various applications.

[00032] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with dispensing mechanism 106, which ensures controlled and consistent material application. It supports multiple modes, including piston-driven, pump-action, and gravity-fed dispensing, to accommodate different material viscosities. The dispensing mechanism 106 interacts with the control interface 110 to enable precise flow rate adjustments and prevent over-dispensing. It is designed to work seamlessly with the flowable material cartridge 104, ensuring uniform application without clogging or interruptions. The minimal waste dispensing technology integrated into the dispensing mechanism 106 helps reduce material wastage, aligning with claims related to sustainability.

[00033] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with nozzle system 108, which includes interchangeable nozzles for diverse application requirements. The system features fine-tip nozzles for precision tasks and broader nozzles for larger-scale applications, such as agricultural spraying. The nozzle system 108 works in tandem with the dispensing mechanism 106 and the control interface 110, which automatically calibrates flow rate based on the selected nozzle. Some nozzles may include roller or brush attachments for uniform application, enhancing the versatility of the applicator. The easy interchangeability of the nozzle system 108 supports efficient switching between tasks without extensive downtime.

[00034] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with control interface 110, which allows users to monitor and adjust settings such as flow rate, dispensing pressure, and material usage. The interface includes a digital display that provides real-time data, including material level alerts for the flowable material cartridge 104 and battery status for the power system 112. The control interface 110 also integrates an educational guide, offering step-by-step instructions and best practices for various applications. By interacting with the dispensing mechanism 106 and nozzle system 108, the control interface 110 ensures precise and user-friendly operation.

[00035] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with power system 112, which supports both manual and motorized operation. The motorized mode uses a rechargeable battery, allowing consistent pressure for dense materials. The power system 112 is designed for field use, with a USB-compatible recharging feature for convenience. It seamlessly integrates with the control interface 110, enabling smooth transitions between power modes and ensuring reliable performance for extended periods. The manual mode provides flexibility for lightweight materials or situations where motorized operation is unnecessary.

[00036] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with wireless connectivity module 114, which enables remote control and monitoring via a mobile application. Through this module, users can adjust dispensing settings, track material usage, and receive maintenance alerts. The wireless connectivity module 114 works closely with the control interface 110 to provide centralized management, particularly in industrial applications where multiple applicators may be in use. This feature enhances user convenience and supports advanced functionalities like diagnostics and performance tracking.

[00037] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with material consumption tracker 116, which monitors material usage in real time. This component integrates with the flowable material cartridge 104 and control interface 110 to display the remaining material and alert users when refills are required. By reducing unexpected material depletion, the material consumption tracker 116 ensures uninterrupted operations in critical applications, such as healthcare or construction. Its ability to track usage patterns also supports claims related to efficiency and waste reduction.

[00038] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with integrated cleaning and sterilization system 118, which allows users to flush residual materials and maintain hygiene. This system is especially valuable in healthcare, cosmetics, and food-grade applications, where cross-contamination must be avoided. It works seamlessly with the flowable material cartridge 104 and dispensing mechanism 106, enabling quick and thorough cleaning. The system supports sustainability by reducing the need for extensive manual cleaning or disposable components, aligning with the claims of ease of maintenance and hygienic operation.

[00039] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with environmental protection features 120, which ensure the device's durability in outdoor and harsh conditions. The housing of the main housing unit 102 is designed with weather-resistant and impact-resistant materials to protect the internal components, including the dispensing mechanism 106 and wireless connectivity module 114. These features allow the applicator to perform reliably in construction sites, agricultural fields, and other demanding environments. The sealing mechanisms prevent dust and moisture infiltration, enhancing the longevity and reliability of the applicator.

[00040] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with safety features 122, which ensure secure operation and transportation of the device. These features include pressure sensors to prevent over-dispensing, protecting both the user and the material. The safety locking mechanism integrated into the main housing unit 102 prevents accidental activation during transport or storage. The safety features 122 also include an auto-shutoff system that deactivates the power system 112 after a period of inactivity, conserving battery life and enhancing safety. These mechanisms work seamlessly with the control interface 110, providing users with notifications or alerts in case of unsafe operation conditions.

[00041] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with temperature regulation system 124, which maintains the optimal temperature for flowable materials during application. This is particularly beneficial for materials like adhesives or cosmetics, which are sensitive to temperature changes. The system interacts with the flowable material cartridge 104 and dispensing mechanism 106 to ensure consistent viscosity and flow properties. The temperature regulation system 124 also works with the control interface 110 to allow users to monitor and adjust the temperature settings. This feature supports claims related to material consistency and precise application.

[00042] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with ergonomic design with adjustable grip 126, which enhances user comfort and reduces fatigue during prolonged use. The adjustable grip accommodates various hand sizes, ensuring that users can operate the main housing unit 102 comfortably. This design integrates with the dispensing mechanism 106 to provide steady and precise control during application. The ergonomic features also enhance portability, making the applicator suitable for fieldwork and other demanding environments. By prioritizing user comfort, this component supports claims of ease of use and versatility.

[00043] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with integrated mixing chamber 128, which enables the mixing of multiple components just before dispensing. This is especially useful in applications requiring the combination of materials, such as two-part adhesives or certain medical formulations. The mixing chamber is positioned within the dispensing mechanism 106 and interacts seamlessly with the flowable material cartridge 104 to ensure homogenous mixing. The integrated mixing chamber 128 enhances the functionality of the applicator by supporting multi-component applications, as claimed in the invention.

[00044] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with real-time feedback sensors 130, which monitor the application process to ensure precision and consistency. These sensors detect variations in flow rate, pressure, or material coverage, providing instant feedback to the control interface 110. The real-time feedback sensors 130 are particularly valuable in critical applications, such as agriculture or healthcare, where precision is essential. By enabling on-the-spot adjustments, this component supports claims related to accuracy and optimal material usage.

[00045] Referring to Fig. 1, the portable applicator for flowable materials 100 is provided with modular add-ons 132, which allow users to customize the applicator for specialized applications. Examples of add-ons include UV sterilization modules for healthcare use and automated measuring attachments for precise dosing in pharmaceuticals. The modular add-ons 132 integrate seamlessly with the main housing unit 102 and other components like the dispensing mechanism 106. This adaptability supports claims of versatility and cost-effectiveness, as users can tailor the device to meet specific needs without investing in entirely new equipment.


[00046] Referring to Fig 2, there is illustrated method 200 for portable applicator for flow able materials 100. The method comprises:
At step 202, method 200 includes the user securely inserting the flowable material cartridge 104 into the main housing unit 102, ensuring proper alignment for operation;
At step 204, method 200 includes the auto-recognition system of the flowable material cartridge 104 communicating with the control interface 110 to identify the material type and adjust dispensing settings, such as flow rate and pressure, based on material properties;
At step 206, method 200 includes the user selecting the appropriate nozzle from the nozzle system 108, attaching it to the dispensing mechanism 106, and calibrating the nozzle automatically for consistent application;
At step 208, method 200 includes the user activating the device through the control interface 110, with the power system 112 providing energy in manual or motorized mode based on user preference and material viscosity;
At step 210, method 200 includes the dispensing mechanism 106 releasing the material through the nozzle system 108 with controlled flow, ensuring precise application for the intended task;
At step 212, method 200 includes the temperature regulation system 124 maintaining the material's optimal temperature to preserve its properties, such as viscosity and adhesion;
At step 214, method 200 includes the real-time feedback sensors 130 monitoring the dispensing process and providing feedback to the control interface 110, ensuring adjustments are made dynamically for accuracy and consistency;
At step 216, method 200 includes the material consumption tracker 116 displaying real-time usage data on the control interface 110 and alerting the user when the material in the flowable material cartridge 104 is running low;
At step 218, method 200 includes the user utilizing the integrated cleaning and sterilization system 118 to flush residual material and sterilize the dispensing mechanism 106 and nozzle system 108 for hygienic operation, particularly in sensitive applications;
At step 220, method 200 includes the wireless connectivity module 114 allowing the user to monitor device performance, adjust settings, and receive maintenance alerts through a mobile application;
At step 222, method 200 includes the user adjusting the grip of the ergonomic design with adjustable grip 126 for comfortable handling during prolonged use, reducing fatigue and improving precision;
At step 224, method 200 includes the integrated mixing chamber 128 combining multiple material components from the flowable material cartridge 104 just before dispensing, ensuring uniformity for multi-component applications;
At step 226, method 200 includes the user utilizing modular add-ons 132, such as a UV sterilization module or a measuring attachment, for specialized applications like healthcare or pharmaceuticals;
At step 228, method 200 includes the environmental protection features 120 safeguarding the main housing unit 102 and internal components, such as the dispensing mechanism 106 and wireless connectivity module 114, from dust, moisture, and impact during operation in outdoor environments.
[00047] The Portable Applicator for Flowable Materials 100 finds applications across diverse industries such as construction, healthcare, cosmetics, agriculture, and food processing. In construction, it enables the precise application of adhesives, sealants, and lubricants, particularly in hard-to-reach areas where traditional tools are impractical. The flowable material cartridge 104, combined with the dispensing mechanism 106, ensures consistent application, reducing waste and improving structural integrity. In agriculture, the applicator is ideal for the targeted application of fertilizers, pesticides, and herbicides, minimizing chemical runoff and environmental harm. The precision offered by the nozzle system 108, paired with real-time adjustments from feedback sensors 130, enhances crop yield and supports sustainable farming practices. In healthcare and cosmetics, the hygienic design of the integrated cleaning and sterilization system 118 ensures safe application of creams, gels, and medications, preventing contamination while improving user safety. Its portability and ergonomic design with adjustable grip 126 make it indispensable for field-based applications or locations with limited infrastructure.

[00048] The invention offers several benefits that enhance user convenience, sustainability, and cost-effectiveness. The auto-recognition system in the flowable material cartridge 104 and control interface 110 ensures optimal settings for various materials, reducing errors and improving efficiency. The temperature regulation system 124 maintains material consistency, making the applicator suitable for sensitive materials like adhesives or cosmetics. Its rugged construction, supported by environmental protection features 120, ensures reliable performance in harsh outdoor environments, such as construction sites or agricultural fields. Additionally, the wireless connectivity module 114 enables remote monitoring and control, allowing users to manage multiple devices simultaneously, which is particularly beneficial in industrial settings. The modular add-ons 132, such as a UV sterilization module or automated measuring attachments, further enhance its versatility, enabling users to adapt the device for specialized tasks. These features collectively make the invention a robust, efficient, and sustainable solution for precise material application.

[00049] In the description of the present invention, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "fixed" "attached" "disposed," "mounted," and "connected" are to be construed broadly, and may for example be fixedly connected, detachably connected, or integrally connected, either mechanically or electrically. They may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

[00050] Modifications to embodiments of the present disclosure described in the foregoing are possible without departing from the scope of the present disclosure as defined by the accompanying claims. Expressions such as "including", "comprising", "incorporating", "have", "is" used to describe and claim the present disclosure are intended to be construed in a non- exclusive manner, namely allowing for items, components or elements not explicitly described also to be present. Reference to the singular is also to be construed to relate to the plural where appropriate.

[00051] Although embodiments have been described with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More particularly, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the present disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, alternative uses will also be apparent to those skilled in the art.

, Claims:WE CLAIM:
1. A portable applicator for flow able materials 100 comprising of
main housing unit 102 to provide structural support and protect internal components;
flowable material cartridge 104 to store and dispense liquids, gels, pastes, or powders;
dispensing mechanism 106 to ensure controlled and consistent application of materials;
nozzle system 108 to allow precise or broad material application through interchangeable nozzles;
control interface 110 to enable users to monitor and adjust dispensing settings;
power system 112 to provide energy for manual and motorized operation;
wireless connectivity module 114 to enable remote control and monitoring via a mobile app;
material consumption tracker 116 to display real-time material usage and provide refill alerts;
integrated cleaning and sterilization system 118 to flush residual material and maintain hygiene;
environmental protection features 120 to safeguard the device from dust, moisture, and impact;
safety features 122 to prevent accidental activation and ensure secure transport;
temperature regulation system 124 to maintain optimal material viscosity and flow properties;
ergonomic design with adjustable grip 126 to enhance user comfort and reduce fatigue;
integrated mixing chamber 128 to combine multiple components just before dispensing;
real-time feedback sensors 130 to monitor dispensing and provide dynamic adjustments; and
modular add-ons 132 to support specialized applications like UV sterilization or precise dosing.

2. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the flowable material cartridge 104 is configured to store liquids, gels, pastes, or powders and incorporates an auto-recognition system to optimize dispensing settings for precise and consistent application.

3. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the dispensing mechanism 106 is configured to support multi-mode operation, including piston-driven, pump-action, and gravity-fed systems, enabling controlled material flow for various viscosities and minimizing wastage.

4. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the nozzle system 108 is configured with interchangeable nozzles, each calibrated automatically to ensure consistent application, allowing for precise or broad material coverage based on the selected nozzle type.

5. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the control interface 110 is configured to provide real-time monitoring of flow rate, material usage, and battery life, and allows users to adjust settings dynamically for optimal dispensing.

6. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the integrated cleaning and sterilization system 118 is configured to flush residual materials and sterilize the internal pathways, ensuring hygienic operation and preventing cross-contamination in healthcare or food-grade applications.

7. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the temperature regulation system 124 is configured to maintain optimal material viscosity during dispensing, ensuring consistent performance for temperature-sensitive materials such as adhesives and cosmetics.

8. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the wireless connectivity module 114 is configured to enable remote control, real-time monitoring, and performance tracking through a mobile application, enhancing operational efficiency in industrial applications.

9. The portable applicator for flowable materials 100 as claimed in claim 1, wherein the modular add-ons 132 are configured to extend the device's functionality with specialized tools such as UV sterilization modules and automated measuring attachments, enabling adaptability for specific industrial or medical tasks.

10. The portable applicator for flowable materials 100 as claimed in claim 1, wherein method comprises of
user securely inserting the flowable material cartridge 104 into the main housing unit 102, ensuring proper alignment for operation;
the auto-recognition system of the flowable material cartridge 104 communicating with the control interface 110 to identify the material type and adjust dispensing settings, such as flow rate and pressure, based on material properties;
user selecting the appropriate nozzle from the nozzle system 108, attaching it to the dispensing mechanism 106, and calibrating the nozzle automatically for consistent application;
user activating the device through the control interface 110, with the power system 112 providing energy in manual or motorized mode based on user preference and material viscosity;
dispensing mechanism 106 releasing the material through the nozzle system 108 with controlled flow, ensuring precise application for the intended task;
temperature regulation system 124 maintaining the material's optimal temperature to preserve its properties, such as viscosity and adhesion;
real-time feedback sensors 130 monitoring the dispensing process and providing feedback to the control interface 110, ensuring adjustments are made dynamically for accuracy and consistency;
material consumption tracker 116 displaying real-time usage data on the control interface 110 and alerting the user when the material in the flowable material cartridge 104 is running low;
user utilizing the integrated cleaning and sterilization system 118 to flush residual material and sterilize the dispensing mechanism 106 and nozzle system 108 for hygienic operation, particularly in sensitive applications;
wireless connectivity module 114 allowing the user to monitor device performance, adjust settings, and receive maintenance alerts through a mobile application;
user adjusting the grip of the ergonomic design with adjustable grip 126 for comfortable handling during prolonged use, reducing fatigue and improving precision;
integrated mixing chamber 128 combining multiple material components from the flowable material cartridge 104 just before dispensing, ensuring uniformity for multi-component applications;
user utilizing modular add-ons 132, such as a uv sterilization module or a measuring attachment, for specialized applications like healthcare or pharmaceuticals;
environmental protection features 120 safeguarding the main housing unit 102 and internal components, such as the dispensing mechanism 106 and wireless connectivity module 114, from dust, moisture, and impact during operation in outdoor environments.

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