DESC:TECHNICAL FIELD OF THE INVENTION
[0001] The present invention relates to a Mosquito Vaporizer Machine with interval/pause system by inbuilt governing system that incorporates a Positive Temperature Coefficient (PTC) heating element or any type of heating element, impact of interval/pauses machine will release minimal insecticides in atmosphere, consistent use of insecticide is cause of such problems i.e. respiratory problems, skin irritation
BACKGROUND OF THE INVENTION
[0002] Background description includes information that may be useful in understanding the present invention. It is not an admission that any of the information provided herein is prior art or relevant to the presently claimed invention, or that any publication specifically or implicitly referenced is prior art.
[0003] Mosquito-borne diseases such as malaria, dengue, and chikungunya pose significant health risks worldwide. To combat these diseases, mosquito repellent vaporizers have become a common household solution. These devices typically consist of a heating element that continuously vaporizes liquid insecticides, dispersing them into the air to repel or eliminate mosquitoes. While effective, the constant release of insecticides into the environment has raised concerns about health risks and long-term exposure effects.
[0004] Traditional mosquito vaporizers operate using resistive heating elements that provide continuous heating, causing a steady and often excessive release of insecticides. Prolonged exposure to these chemicals has been linked to respiratory issues, skin irritation, and allergic reactions in humans, particularly among children, elderly individuals, and people with pre-existing respiratory conditions such as asthma. Additionally, constant vaporization can lead to unnecessary wastage of insecticide, reducing the product’s efficiency and lifespan.
[0005] Another limitation of conventional vaporizers is inefficient energy consumption. Most devices operate on fixed heating power, which means that even when the insecticide concentration in the air is already sufficient, the device continues to release chemicals, leading to overuse of insecticides and excessive power consumption. Over time, this not only increases electricity costs but also contributes to environmental pollution.
[0006] To address these challenges, researchers and manufacturers have explored alternative heating technologies that provide better control over vaporization. One such technology is the Positive Temperature Coefficient (PTC) heating element. PTC heaters exhibit self-regulating properties, meaning that their resistance increases with temperature, thereby limiting excessive heating and ensuring safer operation. This characteristic makes PTC heaters an energy-efficient and reliable solution for controlled insecticide vaporization.
[0007] The present invention introduces a PTC heater-based mosquito vaporizer with an interval/pause-based operation system. Unlike conventional vaporizers that continuously release insecticides, this innovative system functions in predefined cycles, allowing the heating element to turn ON and OFF at specific interval/pauses. This ensures that only the necessary amount of insecticide is released into the air, effectively reducing human exposure to harmful chemicals while maintaining mosquito control effectiveness.
[0008] The interval/pause-based system also improves the lifespan of the insecticide by preventing excessive evaporation, making the device cost-effective for consumers. Additionally, this technology reduces the environmental impact by limiting the unnecessary dispersal of chemical vapors into the air. With optimized energy efficiency, this invention minimizes electricity consumption, making it a sustainable alternative to conventional mosquito vaporizers.
[0009] Furthermore, the incorporation of microcontroller-based or timer-based control ensures that the device operates with precision and reliability. Users can benefit from a safer and more effective mosquito control solution without the drawbacks of constant chemical exposure and high power consumption. By integrating PTC heating technology and interval/pause-based operation, this invention provides a health-conscious, energy-efficient, and environmentally friendly alternative to existing mosquito vaporizer systems.
OBJECTS OF THE INVENTION
[0010] The primary object of the present invention is to provide a Positive Temperature Coefficient (PTC) heater-based mosquito vaporizer with an interval/pause-based operation system that optimizes the release of insecticides, thereby reducing continuous exposure to harmful chemicals. By utilizing a self-regulating heating element and a timed vaporization mechanism, this invention ensures efficient mosquito control while minimizing health risks such as respiratory problems, skin irritation, and allergic reactions.
[0011] Another object of the invention is to introduce a safer and more energy-efficient alternative to conventional mosquito vaporizers. Traditional devices continuously release insecticides, leading to unnecessary chemical exposure and excessive power consumption. The proposed invention addresses these issues by incorporating a PTC heating element that automatically adjusts resistance with temperature, ensuring controlled heating and preventing overheating.
[0012] A further objective of this invention is to enhance cost-effectiveness by extending the lifespan of the insecticide. Continuous vaporization often results in premature depletion of the repellent liquid, requiring frequent refills. By operating in interval/pauses, the present invention optimizes the use of insecticide, ensuring that only the necessary amount is released at specific time interval/pauses. This results in longer-lasting mosquito control, reducing refill costs for users.
[0013] The invention also aims to reduce environmental impact by minimizing unnecessary chemical dispersion. Excessive and prolonged release of insecticides into the air contributes to indoor air pollution and potential ecological damage. The interval/pause-based system ensures that the vaporizer releases just enough insecticide to maintain mosquito repellent effectiveness, making it a more eco-friendly solution.
[0014] Another key objective of the invention is to improve user safety and convenience. Traditional mosquito vaporizers often rely on resistive heating elements, which can overheat and pose fire hazards if left unattended for long periods. The use of PTC heating technology eliminates these risks by providing automatic temperature regulation. Additionally, the interval/pause-based operation can be controlled through programmable timers or microcontroller-based circuits, offering users a customizable and hassle-free experience.
[0015] Furthermore, the invention seeks to lower power consumption by utilizing energy-efficient heating technology. Continuous heating elements consume a significant amount of electricity, whereas the PTC-based system combined with an interval/pause mechanism ensures that the vaporizer operates only when necessary. This helps users save on electricity costs while still maintaining effective mosquito protection.
[0016] Lastly, the invention aims to be widely applicable and adaptable for various mosquito control needs. The design can be implemented in household mosquito vaporizers, commercial pest control systems, and outdoor repellent devices. By integrating advanced heating and timing mechanisms, this technology can be customized for different environments and user preferences, making it a versatile solution for effective and responsible insecticide usage.
SUMMARY OF THE INVENTION
[0017] The present invention relates to a mosquito vaporizer machine that incorporates a Positive Temperature Coefficient (PTC) heating element or any type of heating element.
[0018] The present invention relates to a Positive Temperature Coefficient (PTC) heater-based mosquito vaporizer with an in-built interval/pause controller that regulates the power supply to the heating element, ensuring controlled and periodic insecticide release. Unlike conventional mosquito vaporizers that operate continuously, this invention introduces an automatic interval/pause-based system that alternates between active and sleep modes, optimizing insecticide usage while reducing unnecessary exposure to chemicals.
[0019] The present invention incorporates a programmable interval/pause controller that allows users to set predefined working durations for the PTC heating element. For example, the vaporizer can be programmed to operate in 15-minute active mode followed by a 15-minute sleep mode, automatically cycling without human intervention. This interval/pause-based operation optimizes energy consumption and ensures that insecticide is released only when needed, reducing wastage and prolonging the life of the repellent liquid.
[0020] The present invention utilizes PTC heating technology, which offers self-regulating temperature control to prevent overheating and ensure safe operation. Unlike traditional resistive heating elements, which require external regulation, the PTC heater adjusts its resistance based on temperature, making it an ideal choice for energy-efficient and reliable insecticide vaporization.
[0021] The present invention addresses health concerns associated with continuous insecticide exposure. Conventional vaporizers release chemicals at a constant rate, leading to potential respiratory problems, skin irritation, and allergic reactions. By implementing an interval/pause-based vaporization system, this invention minimizes excessive chemical dispersion in the air, making it a safer alternative for households, particularly for children, elderly individuals, and those with respiratory sensitivities.
[0022] The present invention significantly enhances the cost-effectiveness of mosquito vaporizer devices. The automatic interval/pause system ensures efficient utilization of insecticide, preventing unnecessary evaporation and extending the refill duration. As a result, consumers can reduce their usage costs while maintaining effective mosquito control.
[0023] The present invention also contributes to environmental sustainability by reducing chemical emissions into the air. Continuous insecticide vaporization contributes to indoor air pollution, whereas the interval/pause-controlled release mechanism in this invention ensures that only the required amount of vapor is emitted, promoting a healthier and eco-friendly indoor environment.
[0024] The present invention incorporates a compact and adaptable design, making it compatible with a wide range of mosquito repellent devices. The interval/pause controller can be pre-installed or integrated as an add-on module, allowing manufacturers to implement this technology in household vaporizers, industrial pest control systems, and outdoor repellent devices.
[0025] The present invention also focuses on energy efficiency by reducing power consumption through the interval/pause-based operation. Traditional vaporizers continuously draw power, leading to unnecessary energy usage. By automatically cycling between active and sleep modes, this invention significantly lowers electricity consumption, making it a cost-effective and energy-saving solution.
[0026] The present invention provides a user-friendly and maintenance-free experience by eliminating the need for manual switching or adjustments. The pre-programmed controller ensures that the vaporizer functions autonomously, offering a convenient and effective mosquito control solution with minimal user intervention.

[0027] BRIEF DESCRIPTION OF THE DRAWINGS
[0028] The accompanying flow chart includes to provides a further understanding of the present disclosure and are incorporated in and constitute a part of this specification. The drawings illustrate an exemplary block diagram of the present method of disclosure and, together with the description, serve to explain the principles of the present disclosure.
[0029] Fig.1 illustrates the automatic turn on and off function of the present invention.
DETAILED DESCRIPTION
[0030] The following is a detailed description of embodiments of the disclosure depicted in the accompanying drawing. The embodiments are in such detail as to communicate the disclosure. However, the amount of detail offered 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 spirit, and scope of the present disclosure as defined by the appended.
[0031] The present invention relates to a Positive Temperature Coefficient (PTC) heater-based mosquito vaporizer that is equipped with an in-built interval/pause controller to regulate the power supply to the heating element. The interval/pause controller is programmable and can be tuned to function at various time interval/pauses. For instance, the device can be set to operate in 15-minute active mode (ON) followed by a 15-minute sleep mode (OFF), ensuring an automatic and efficient vaporization process without human intervention.
[0032] The present invention consists of a PTC heating element, which serves as the core component for vaporizing the insecticide liquid. Unlike conventional resistive heating elements that require external regulation, the PTC heater exhibits self-regulating properties, meaning its resistance increases as temperature rises, thereby limiting excessive current flow. This unique characteristic ensures energy-efficient and safe operation while preventing overheating risks.
[0033] The present invention includes an interval/pause control unit, which is an electronic device inserted before the power supply circuit. This controller determines the ON and OFF cycles of the heating element, allowing for controlled vaporization of insecticide. The interval/pause controller can be implemented using a microcontroller, programmable timer circuit, or an embedded relay-based switching system, ensuring precise and reliable operation.
[0034] The present invention features a power regulation circuit that manages the electricity supplied to the PTC heater. This circuit consists of a transformer, rectifier, voltage regulator, and a switching relay that work together to deliver a stable power supply. The power regulation ensures that the vaporizer operates within a safe voltage range, preventing electrical surges and extending the device’s lifespan.
[0035] The present invention integrates a liquid reservoir and wick system, which stores and facilitates the controlled release of insecticide. The wick absorbs the liquid and transfers it to the heating element, where it is vaporized. The interval/pause-based heating mechanism ensures that the liquid is utilized efficiently, reducing unnecessary evaporation and prolonging the refill duration.
[0036] The present invention includes a thermal sensor that monitors the temperature of the heating element. This sensor works in coordination with the interval/pause controller to prevent overheating and maintain optimal vaporization levels. If the temperature exceeds a predefined threshold, the sensor signals the controller to adjust the heating cycle or temporarily shut off the heater, ensuring safe operation.
[0037] The present invention is designed with a safety circuit, incorporating overcurrent protection, short-circuit prevention, and automatic shutdown features. This ensures that the device operates within safe limits, protecting it from electrical faults and enhancing durability. The PTC heater's self-regulating nature further adds to the safety aspect by eliminating the risk of excessive power draw.
[0038] The present invention also features programmable settings that allow users to customize the interval/pause operation as per their requirements. The interval/pause controller can be adjusted for different ON/OFF cycles, such as 10 minutes ON / 20 minutes OFF, 15 minutes ON / 15 minutes OFF, or 30 minutes ON / 45 minutes OFF, providing flexibility based on mosquito infestation levels and environmental conditions.
[0039] The present invention employs an LED indicator system to display the operating status of the vaporizer. The LED lights up when the device is in active mode and turns off when in sleep mode, giving users a clear visual indication of its functioning. Some advanced models may also include a digital display to show the countdown timer for the next vaporization cycle.
[0040] The present invention reduces chemical exposure risks by ensuring that insecticide is released only when necessary. Continuous exposure to mosquito repellents can cause respiratory issues, skin irritation, and allergic reactions, especially in children, elderly individuals, and people with pre-existing health conditions. The interval/pause-based release mechanism significantly minimizes these health risks, making the vaporizer a safer alternative.
[0041] The present invention enhances energy efficiency by reducing power consumption. Traditional vaporizers continuously consume electricity, leading to unnecessary energy waste. By operating in programmed interval/pauses, this invention significantly lowers electricity usage, resulting in cost savings for consumers while maintaining effective mosquito control.
[0042] The present invention contributes to environmental sustainability by minimizing chemical dispersion into the air. Conventional vaporizers release insecticides continuously, which can increase indoor air pollution. The interval/pause-controlled vaporization ensures that only the required amount of insecticide is released at optimal interval/pauses, reducing environmental impact.
[0043] The present invention ensures prolonged insecticide usage, making it a cost-effective solution for consumers. By preventing excessive vaporization, the refill liquid lasts significantly longer than in conventional vaporizers. This reduces the frequency of refilling and replacement costs, making it a budget-friendly and efficient solution for mosquito control.
[0044] The present invention is easy to install and operate, requiring minimal user intervention. Once plugged in, the vaporizer functions autonomously, following the programmed ON/OFF cycle. There is no need for users to manually switch the device ON and OFF, making it a convenient and hassle-free solution.
[0045] The present invention is designed to be compact and lightweight, ensuring that it can be used in various settings, such as homes, offices, hospitals, hotels, and public spaces. The vaporizer can be easily transported and plugged into standard electrical outlets, making it a versatile and portable mosquito control device.
[0046] The present invention can be adapted for various mosquito repellent formulations, including liquid-based insecticides, herbal solutions, and essential oil-based repellents. The controlled heating mechanism ensures that different types of insecticides can be vaporized efficiently without altering their chemical composition.
[0047] The present invention can be integrated with smart home systems for automated control via mobile apps, voice assistants, or Wi-Fi-enabled remote operations. Users can set customized schedules, monitor device status, and receive notifications when a refill is required, adding smart functionality to mosquito control.
[0048] The present invention is compatible with renewable energy sources, such as solar-powered battery packs, making it suitable for use in off-grid locations, rural areas, and outdoor environments. This further enhances its sustainability and energy efficiency, providing effective mosquito control solutions in diverse conditions.
[0049] The present invention offers long-term durability and reliability, as the PTC heating element has a longer lifespan compared to traditional resistive heaters. The self-regulating nature of the PTC heater ensures that the device remains functional for extended periods without requiring frequent maintenance or part replacements.
[0050] The present invention provides a modern and innovative solution for mosquito control, addressing health concerns, energy consumption, environmental impact, and cost-effectiveness. By incorporating advanced interval/pause-based heating technology, this invention sets a new standard for safe, efficient, and smart mosquito vaporizer systems.
,CLAIMS:1. A mosquito vaporizer system comprises; an in-built interval/pause controller to regulate power supply and optimize insecticide release where an automatic interval/pause-based system, alternating between active and sleep modes to reduce chemical exposure, enhance energy efficiency, and prolong insecticide usage.
2. A mosquito vaporizer system as claimed in claim 1, comprises a PCT heating element, where the heating element ensures self-regulating temperature control, preventing overheating and ensuring safe operation.
3. A mosquito vaporizer system as claimed in claim 1, comprises a power regulation circuits, thermal sensors, safety features, and LED indicators for seamless operation.
4. A mosquito vaporizer system as claimed in claim 1, where various mosquito repellent formulations, including liquid-based insecticides, herbal solutions, and essential oil-based repellents.
5. A mosquito vaporizer system as claimed in claim 1, where the controlled heating mechanism ensures that the different types of insecticides vaporized efficiently without altering their chemical composition.