DESC:“InnJah Water Motor Pump”

FIELD OF INVENTION
[0001] The InnJah Water Motor Pump falls within the field of fluid mechanics, specifically focusing on advancements in water pump technology. This invention encompasses the areas of thermal management in mechanical systems, energy efficiency in fluid handling, and automation in water supply management. The key aspects of this field include:
[0002] Thermal Management Systems: Innovations in heat dissipation mechanisms to enhance the operational lifespan and performance of mechanical components, particularly electric motors.
[0003] Energy Efficiency in Mechanical Systems: Techniques and technologies aimed at reducing power consumption and improving the overall energy efficiency of mechanical systems, with a particular emphasis on fluid handling equipment such as water pumps.
[0004] Automation and Control Systems: The development and integration of automatic monitoring and control features in mechanical devices, designed to improve safety, reliability, and operational efficiency. This includes the use of sensors and circuits for real-time monitoring and automatic shutdown to prevent damage and reduce energy waste.
[0005] Fluid Handling and Pumping Technology: Advancements in the design and functionality of pumps used for various applications, including irrigation, industrial processes, and domestic water supply. This involves innovative designs to address common challenges such as overheating, continuous operation, and energy inefficiency.

BACKGROUND OF INVENTION
[0006] Water pumps have long been an indispensable tool in various applications, ranging from agricultural irrigation and industrial processes to domestic water supply systems. Over the years, these pumps have undergone significant advancements to improve their efficiency and reliability. However, traditional water pumps still face two major challenges that affect their performance and longevity.
[0007] The first challenge is the excessive heat generated during the operation of water pumps. This heat buildup is a critical issue because the temperature of the motor significantly impacts its lifespan. For every 10-degree increase in temperature, the lifespan of the motor is drastically reduced. Traditional water pumps primarily rely on air-cooling mechanisms, which are inherently less efficient than water-cooling systems. The low thermal conduction coefficient of air compared to water results in slower heat dissipation, leading to increased wear and tear on the motor, frequent maintenance requirements, and ultimately, shorter operational life.
[0008] The second challenge is the continuous operation of water pumps even when the water source is unavailable. In many instances, pumps continue to run during periods of dehydration or when there is a disruption in the water supply. This not only risks damaging the pump due to dry running but also leads to unnecessary energy consumption, higher electricity bills, and increased risk of motor failure. Traditional pumps lack an effective mechanism to automatically detect the absence of water flow and shut down the motor to prevent damage and conserve energy.
[0009] To address these challenges, there is a pressing need for innovative solutions that can enhance the thermal management of water pumps and introduce intelligent automation features. The goal is to develop a water pump that can efficiently dissipate heat, ensuring a longer motor lifespan, and incorporate an automatic cut-off feature to prevent operation during dry conditions, thereby saving energy and reducing the risk of damage.
[0010] The InnJah Water Motor Pump was conceived as a response to these critical issues. By leveraging advanced heat dissipation technology and integrating smart automation features, the InnJah Water Motor Pump aims to revolutionize the water pump industry. The innovative use of a helical tube for rapid heat extraction and the inclusion of an electric sensor for automatic shutdown during water unavailability represent significant strides in making water pumps more reliable, efficient, and cost-effective.
[0011] This invention is poised to meet the growing demand for high-performance water pumps that can withstand harsh operating conditions, reduce maintenance costs, and operate efficiently with minimal environmental impact. By addressing the fundamental problems of heat management and unnecessary energy consumption, the InnJah Water Motor Pump stands to make a substantial contribution to the field of water pump technology.
SUMMARY OF INVENTION
[0012] The InnJah Water Motor Pump is a pioneering advancement in water pump technology designed to address the critical issues of heat management and energy efficiency in traditional water pumps. This innovative pump incorporates several key features that enhance its performance, longevity, and operational efficiency.

[0013] Efficient Heat Dissipation: The InnJah Water Motor Pump employs a groundbreaking heat dissipation mechanism that significantly extends the motor's lifespan. Utilizing the superior thermal conductivity of water compared to air, the pump circulates water through an innovative helical tube surrounding the motor's body. This design rapidly extracts heat generated by the motor, reducing its temperature at a rate 20 times faster than traditional pumps. This effective cooling system ensures a prolonged motor lifespan and enhanced performance.
[0014] Automatic Cut-Off Feature: To further improve safety and efficiency, the InnJah Water Motor Pump includes an electric sensor and associated circuitry. The sensor is strategically placed at the motor's outlet to monitor water flow continuously. When the water source is unavailable, the sensor detects the absence of water flow and triggers an automatic cut-off switch. This feature shuts down the motor within seconds, preventing damage from dry running and reducing unnecessary electricity consumption.
[0015] Innovative Design: The InnJah Water Motor Pump combines advanced heat dissipation technology with an automatic cut-off feature in a single, integrated system. By leveraging the motor's own pumping action to circulate and dissipate heat through the helical tube, the pump revolutionizes traditional cooling methods. The integrated sensor and circuitry provide intelligent monitoring and precise control, ensuring reliable and safe operation.
[0016] The InnJah Water Motor Pump offers several compelling benefits over traditional pumps:
[0017] Risk-Free Operation: The innovative heat dissipation system ensures cooler and safer operation, minimizing the risk of motor failure due to overheating.
[0018] Extended Lifespan: By significantly reducing heat-related wear and tear, the pump boasts an extended lifespan, leading to cost savings in maintenance and replacements.
[0019] Energy Efficiency: The automatic cut-off switch prevents unnecessary power consumption during periods of water unavailability, resulting in reduced electricity bills and greater energy efficiency.
[0020] The InnJah Water Motor Pump represents a significant advancement in the field of water pump technology, offering a reliable, efficient, and cost-effective solution for various applications. This invention addresses the critical challenges of heat management and energy efficiency, providing a cutting-edge water pump that meets the demands of modern industry and agriculture.
PRIOR ART OF INVENTION
[0021] Water pumps have been an essential component in various sectors, including agriculture, industrial processes, and domestic water supply, for many decades. Over time, several improvements have been made to enhance their efficiency, reliability, and performance. The following prior art highlights existing technologies and their limitations, which the InnJah Water Motor Pump aims to address and improve upon:
[0022] Air-Cooled Water Pumps: Traditional water pumps primarily rely on air-cooling mechanisms to manage the heat generated during operation. These pumps use fins or fans attached to the motor to dissipate heat.
[00023] Limitations: Air has a low thermal conduction coefficient, resulting in slower and less effective heat dissipation. This leads to higher operating temperatures, reduced motor lifespan, and increased maintenance requirements.
[0024] Water-Cooled Pumps: Some advanced pumps use water-cooling systems to improve heat dissipation. These systems often involve circulating external water around the motor or using a water jacket.
[0025] Limitations: Existing water-cooled pumps typically require an additional water source and complex plumbing, making them more cumbersome and less efficient. Moreover, these systems are not always integrated with the pump’s operation, leading to potential inefficiencies.
[0026] Thermal Protection Devices: Many water pumps incorporate thermal protection devices, such as thermal overload relays, to prevent overheating. These devices cut off the power supply to the motor when the temperature exceeds a certain threshold.
[0027] Limitations: While thermal protection devices prevent extreme overheating, they do not actively manage the motor’s temperature during normal operation. Additionally, they do not address the issue of energy efficiency during periods of water unavailability.
[0028] Automatic Shut-Off Mechanisms: Some water pumps feature automatic shut-off mechanisms that activate when water flow is insufficient or absent. These mechanisms typically use float switches or pressure sensors to detect the water level or flow.
[0029] Limitations: Traditional shut-off mechanisms often rely on mechanical components that are prone to wear and tear, reducing their reliability. Additionally, these mechanisms may not provide real-time response, leading to potential damage during delay periods.
[0030] Energy-Efficient Pumps: Energy-efficient pumps have been developed to reduce power consumption and improve overall efficiency. These pumps often incorporate variable speed drives (VSDs) or energy-efficient motors.
[0031] Limitations: While energy-efficient pumps address power consumption issues, they do not necessarily incorporate advanced heat dissipation or integrated automatic shut-off features, leaving room for further improvement.
[0032] The InnJah Water Motor Pump distinguishes itself from the prior art by integrating an innovative helical tube heat dissipation mechanism and an advanced automatic cut-off feature. By leveraging the superior thermal conductivity of water and incorporating real-time monitoring with electric sensors, the InnJah Water Motor Pump offers a more effective and efficient solution to the challenges faced by traditional water pumps. This invention not only extends the motor’s lifespan and enhances performance but also significantly improves energy efficiency and operational reliability.
[0033] The InnJah Water Motor Pump introduces several innovative features and improvements that provide significant advantages over existing technologies in the field of water pumps. These advantages address the limitations of prior art and enhance the overall performance, efficiency, and reliability of water pumping systems. Key advantages include:
[0034] Superior Heat Dissipation:
• Innovative Helical Tube Design: The InnJah Water Motor Pump utilizes a helical tube filled with water that circulates around the motor, leveraging water's superior thermal conductivity. This design rapidly extracts and dissipates heat generated by the motor, ensuring a much cooler operating temperature compared to traditional air-cooled and even some water-cooled pumps.
• Extended Motor Lifespan: By maintaining lower operating temperatures, the InnJah Water Motor Pump significantly reduces heat-related wear and tear on the motor, leading to a longer lifespan and decreased maintenance needs.
[0035] Enhanced Energy Efficiency:
• Automatic Cut-Off Feature: The integrated electric sensor and associated circuitry continuously monitor water flow. When the water source is unavailable, the system automatically shuts off the motor within seconds. This prevents dry running, reduces unnecessary energy consumption, and lowers electricity bills.
• Reduced Power Consumption: By operating only when water is available and needed, the InnJah Water Motor Pump optimizes energy usage, making it more energy-efficient than pumps lacking automatic cut-off mechanisms.
[0036] Improved Safety and Reliability:
• Proactive Heat Management: The advanced heat dissipation system ensures that the motor operates at a safe temperature, minimizing the risk of overheating and motor failure. This proactive approach enhances the reliability and safety of the pump.
• Real-Time Monitoring and Control: The electric sensor provides real-time monitoring of water flow, ensuring immediate response to changes in water availability. This feature enhances the pump's reliability and reduces the risk of damage due to dry running.
[0037] Innovative and Integrated Design:
• All-in-One Solution: The InnJah Water Motor Pump combines advanced heat dissipation technology and an automatic cut-off feature in a single, integrated system. This holistic approach simplifies the design and operation, making it more user-friendly and effective.
• Reduced Complexity: Unlike some existing water-cooled pumps that require additional water sources and complex plumbing, the InnJah Water Motor Pump's design uses the motor's own pumping action for heat dissipation, reducing system complexity and improving efficiency.
[0038] Cost-Effectiveness:
• Lower Maintenance Costs: The extended motor lifespan and reduced heat-related wear and tear result in lower maintenance and replacement costs over the pump's operational life.
• Energy Savings: The energy-efficient design and automatic cut-off feature lead to significant cost savings on electricity bills, making the pump more economical to operate.
[0039] Environmental Impact:
• Energy Conservation: By optimizing energy usage and preventing unnecessary power consumption, the InnJah Water Motor Pump contributes to energy conservation and reduces the environmental footprint of water pumping operations.
BRIEF DESCRIPTION OF DRAWINGS
[0040] The accompanying drawings illustrate the embodiments of systems, methods, and other aspects of the disclosure. Any person with ordinary skills in the art will appreciate that the illustrated element boundaries (e.g., boxes, groups of boxes, or other shapes) in the figures represent an example of the boundaries. In some examples, one element may be designed as multiple elements, or multiple elements may be designed as one element. In some examples, an element shown as an internal component of one element may be implemented as an external component in another and vice versa. Furthermore, the elements may not be drawn to scale.
[0041] Various embodiments will hereinafter be described in accordance with the appended drawings, which are provided to illustrate, not limit, the scope, wherein similar designations denote similar elements, and in which:
[0042] Figure 1 illustrates the key components and their connections within the InnJah Water Motor Pump system. The primary focus is on how the various parts interact to ensure efficient heat dissipation, energy efficiency, and automated control.
[0043] Figure 2 provides an overview of the key components and innovations of the InnJah Water Motor Pump, highlighting its main features and technological advancements.
DETAILED DESCRIPTION OF INVENTION
[0044] The present disclosure is best understood with reference to the detailed figures and description set forth herein. Various embodiments have been discussed with reference to the figures. However, those skilled in the art will readily appreciate that the detailed descriptions provided herein with respect to the figures are merely for explanatory purposes, as the methods and devices may extend beyond the described embodiments. For instance, the teachings presented and the needs of a particular application may yield multiple alternative and suitable approaches to implement the functionality of any detail described herein. Therefore, any approach may extend beyond certain implementation choices in the following embodiments.
[0045] References to “one embodiment,” “at least one embodiment,” “an embodiment,” “one example,” “an example,” “for example,” and so on indicate that the embodiment(s) or example(s) may include a particular feature, structure, characteristic, property, element, or limitation but that not every embodiment or example necessarily includes that particular feature, structure, characteristic, property, element, or limitation. Further, repeated use of the phrase “in an embodiment” does not necessarily refer to the same embodiment.
[0046] Methods of the present invention may be implemented by performing or completing manually, automatically, or a combination thereof, selected steps or tasks. The term “method” refers to manners, means, techniques, and procedures for accomplishing a given task including, but not limited to, those manners, means, techniques, and procedures either known to or readily developed from known manners, means, techniques, and procedures by practitioners of the art to which the invention belongs. The descriptions, examples, methods, and materials presented in the claims and the specification are not to be constructed as limiting but rather as illustrative only. Those skilled in the art will envision many other possible variations within the scope of the technology described herein.
[0047] The present invention disclosed herein, known as the InnJah Water Motor Pump represents a significant breakthrough in water pump technology, addressing the critical challenges of heat management, energy efficiency, and operational reliability. This innovative pump is designed to overcome the limitations of traditional water pumps by incorporating advanced heat dissipation mechanisms and intelligent automation features.
[0048] At the core of the InnJah Water Motor Pump is its groundbreaking heat dissipation system. Traditional water pumps primarily rely on air-cooling mechanisms, which are inherently less efficient due to the low thermal conduction coefficient of air. In contrast, the InnJah Water Motor Pump utilizes the superior thermal conductivity of water to achieve rapid and effective cooling. The pump features an innovative helical tube that surrounds the motor's body, through which the water pumped by the motor itself circulates. This design leverages the motor’s own pumping action to facilitate heat extraction. As water circulates through the helical tube, it absorbs the heat generated by the motor, reducing the motor's temperature at a rate 20 times faster than conventional air-cooled pumps. This efficient heat dissipation system significantly extends the motor's lifespan by minimizing heat-related wear and tear, thereby enhancing the pump's overall performance and reliability.
[0049] In addition to its advanced heat dissipation capabilities, the InnJah Water Motor Pump is equipped with an automatic cut-off feature designed to prevent damage from dry running and to conserve energy. An electric sensor, strategically placed at the motor's outlet, continuously monitors the flow of water. When the sensor detects the absence of water flow, such as during periods of dehydration or a dry spell, it triggers an associated circuit that activates an automatic cut-off switch. This intelligent feature ensures that the pump operates only when water is available, thereby preventing the motor from running dry and reducing unnecessary electricity consumption. By shutting down the motor within seconds of detecting the absence of water flow, the automatic cut-off feature mitigates the risks of motor failure and contributes to significant energy savings, making the pump more efficient and cost-effective.
[0050] The InnJah Water Motor Pump's innovative design seamlessly integrates the advanced heat dissipation system and the automatic cut-off feature into a single, cohesive unit. This all-in-one approach simplifies the pump’s operation and enhances its user-friendliness. The use of the motor's own pumping action to circulate cooling water through the helical tube eliminates the need for additional water sources or complex plumbing, reducing the overall system complexity and improving efficiency. The integrated sensor and circuitry provide real-time monitoring and precise control, ensuring reliable and safe operation under varying conditions.
[0051] The advantages of the InnJah Water Motor Pump extend beyond its technical innovations. By maintaining lower operating temperatures, the pump not only prolongs the motor's lifespan but also reduces maintenance and replacement costs. The energy-efficient design, facilitated by the automatic cut-off feature, leads to significant savings on electricity bills, making the pump economically attractive for users. Furthermore, the pump's ability to optimize energy usage and prevent unnecessary power consumption contributes to environmental conservation by reducing the carbon footprint associated with water pumping operations.
[0052] In summary, the InnJah Water Motor Pump is a state-of-the-art solution that addresses the key challenges faced by traditional water pumps. Its superior heat dissipation mechanism, combined with an intelligent automatic cut-off feature, ensures enhanced performance, reliability, and energy efficiency. The innovative design simplifies operation and reduces system complexity, offering a cost-effective and environmentally friendly alternative to conventional water pumps. The InnJah Water Motor Pump sets a new standard in water pump technology, providing a reliable and efficient solution for various applications, from agricultural irrigation to industrial processes and domestic water supply.
[0053] Figure 1 illustrates the key components and their connections within the InnJah Water Motor Pump system. The primary focus is on how the various parts interact to ensure efficient heat dissipation, energy efficiency, and automated control. This diagram showcases the integration of advanced heat dissipation technology and smart automation features within the InnJah Water Motor Pump, highlighting its innovative design and operational efficiency.
[0054] Details of the components depicted in the diagram are as follows:
[0055] Motor: The central component driving the pump's operation. Connected to the Helical Tube and Electric Sensor.
[0056] Helical Tube: Surrounds the motor and utilizes water to dissipate heat efficiently. Connected to both the Motor and the Heat Dissipation system.
[0057] Heat Dissipation: An essential function to maintain the motor's optimal temperature. Receives input from the Motor and the Helical Tube.
[0058] Electric Sensor: Monitors water flow at the motor's outlet. Connected to the Motor and triggers the Automatic Cut-Off system.
[0059] Automatic Cut-Off: Shuts down the motor when water flow is absent to prevent damage and conserve energy. Controlled by the Electric Sensor and connected to the Control System.
[0060] Control System: Manages the overall operation and integrates the sensor data for real-time monitoring. Connected to the Automatic Cut-Off, Water Flow monitoring, and Energy Efficiency systems.
[0061] Water Flow: Monitored continuously by the control system to ensure proper pump operation. Managed by the Control System.
[0062] Energy Efficiency: Focuses on reducing power consumption and improving overall efficiency. Connected to both the Control System and Heat Dissipation.
[0063] Figure 2 provides an overview of the key components and innovations of the InnJah Water Motor Pump, highlighting its main features and technological advancements. This diagram illustrates the interconnected components and features of the InnJah Water Motor Pump, emphasizing its innovative design for efficient heat management, energy efficiency, and automation in water supply management. Details of the components depicted in the diagram are as follows:

[0064] InnJah Water Motor Pump: The central entity representing the entire system and its innovative features.
[0065] Thermal Management: A subsystem focused on efficient heat dissipation to enhance the motor's lifespan and performance. Connected to the Heat Dissipation component.
[0066] Energy Efficiency: A subsystem aimed at reducing power consumption and improving the overall energy efficiency of the pump. Connected to the Automatic Cut-Off feature.
[0067] Automation and Control: A subsystem that integrates automatic monitoring and control features to improve safety, reliability, and operational efficiency. Connected to the Water Flow monitoring system.
[0068] Fluid Handling Technology: A subsystem addressing advancements in pump design and functionality for various applications. Connected to both Heat Management and Energy Savings components.
[0069] Efficient Heat Dissipation: A key feature of the pump, utilizing the superior thermal conductivity of water to rapidly dissipate heat. Connected to the Helical Tube.
[0070] Helical Tube Design: An innovative design feature that circulates water around the motor's body to enhance heat dissipation. Part of the Heat Dissipation system.
[0071] Automatic Cut-Off Feature: A safety and efficiency feature that uses an electric sensor to detect the absence of water flow and automatically shuts down the motor. Connected to the Electric Sensor.
[0072] Electric Sensor: Monitors water flow at the motor's outlet and triggers the automatic cut-off switch when necessary. Part of the Cut-Off system.
[0073] Real-Time Water Flow Monitoring: An automation feature that ensures continuous monitoring and immediate response to changes in water availability. Part of the Control System.
[0074] Proactive Heat Management: A proactive approach to maintaining safe motor temperatures and preventing overheating. Part of the Fluid Handling Technology.
[0075] Energy Savings: Achieved through the energy-efficient design and automatic cut-off feature, reducing unnecessary power consumption. Part of the Fluid Handling Technology.
,CLAIMS:We Claim:
1. A water pump comprising a motor and a helical tube, wherein the helical tube is configured to circulate water pumped by the motor around the motor’s body, thereby facilitating rapid heat dissipation and reducing the motor's operating temperature.
2. The water pump as claimed in 1, wherein the helical tube leverages the superior thermal conductivity of water to dissipate heat generated by the motor at a rate 20 times faster than air-cooled mechanisms.
3. A water pump comprising a motor, an electric sensor positioned at the outlet of the motor, and an associated circuit, wherein the electric sensor detects the absence of water flow and triggers an automatic cut-off switch to shut down the motor when water is unavailable.
4. The water pump as claimed in 1 and claim 3, wherein the helical tube and the automatic cut-off feature are integrated into a single system, providing both advanced heat dissipation and real-time water flow monitoring.
5. The water pump as claimed in 3, wherein the automatic cut-off switch reduces unnecessary electricity consumption by shutting down the motor within seconds of detecting the absence of water flow.
6. The water pump as claimed in 1, wherein the rapid heat dissipation provided by the helical tube significantly extends the motor’s lifespan by reducing heat-related wear and tear.
7. The water pump as claimed in 3, wherein the electric sensor and associated circuit provide a proactive safety mechanism that prevents dry running and mitigates the risks of motor failure.
8. The water pump as claimed in 1, wherein the use of the motor’s own pumping action to circulate water through the helical tube eliminates the need for additional water sources or complex plumbing, thereby reducing system complexity.
9. The water pump as claimed in 3, wherein the electric sensor continuously monitors the water flow in real-time, ensuring immediate response to changes in water availability.
10. The water pump as claimed in 5, wherein the energy-efficient design and automatic cut-off feature contribute to environmental conservation by reducing the carbon footprint associated with water pumping operations.