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WO-2026095884-A1 - A MODULAR MECHANICAL-CHEMICAL AND SOFTWARE-SUPPORTED IMMERSION-TYPE ELECTRONIC WATER FILTER SYSTEM WITH UVC LAMP

WO2026095884A1WO 2026095884 A1WO2026095884 A1WO 2026095884A1WO-2026095884-A1

Abstract

The invention relates to a versatile and portable water filtration system that serves as an alternative to large, bulky, and permanently mounted household filtration units that are difficult to transport. The system consists of modular components that can be added or removed as needed and features a UVC filter, software integration, and wireless connectivity options. It operates by being submerged directly into the water within its container, supports a wide range of usage scenarios, and is maintenance-free and does not generate wastewater.

Inventors

  • TORAMAN, Ali İshak Burak

Dates

Publication Date
20260507
Application Date
20241031

Claims (11)

  1. 1. A modular mechanical-chemical and software-supported, immersion-type electronic water filtration system incorporating a UVC lamp, characterized in that comprising; - A third filtration layer (3) further comprising a water inlet (3.1 ), connection adapter (3.2), battery (3.3), vacuum/recirculation motor (3.4), control panel (3.5), control buttons (3.6), UVC LED (3.7), water analysis sensor (3.8), charging port (3.9), drainage outlet (3.10), and base (3.11 ). - At least one first filtration layer (1 ) further comprising a connection adapter (1.1 ), suspension hole (1.2), coarse filter (1.3), connection adapter (1.4), drainage outlet (1 .5), and fill base (1 .6), or at least one second filtration layer (2) comprising a connection adapter (2.1 ), lid (2.2), drainage outlet (2.3), connection adapter (2.4), fill base (2.5), water inlet (2.6), and at least one filtration chamber (2.7) with a filter element.
  2. 2. The coarse filter (1 .3) as described in Claim 1 , characterized in that comprising a mesh structure.
  3. 3. The connection adapter (1.4) as described in Claim 1 , characterized in that it is designed to interlock with the other connection adapters (2.4, 3.2) and has a form that complements them structurally.
  4. 4. The connection adapter (2.4) as described in Claim 1 , characterized in that it is designed to interlock with the other connection adapters (1 .4, 3.2) and has a form that complements them structurally.
  5. 5. The connection adapter (3.2) as described in Claim 1 , characterized in that it is designed to interlock with the other connection adapters (1 .4, 2.4) and has a form that complements them structurally.
  6. 6. The fill base (1.6) as described in Claim 1 , characterized in that its height is at the level of the drainage outlet (1.5).
  7. 7. The fill base (2.5) as described in Claim 1 , characterized in that its height is at the level of the drainage outlet (2.3).
  8. 8. The second filter layer (2) as described in Claim 1 , characterized in that it includes at least one of the following for filter placement; slots, screw holes, interlocking systems, modular assembly systems, or clips.
  9. 9. The control panel (3.5) as described in Claim 1 , characterized in that it includes a display screen.
  10. 10. The control panel (3.5) as described in Claim 1 , characterized in that it includes an interface that allows the user to select predefined operating durations such as 5, 15, 30, or 60 minutes.
  11. 11. The filtration system as described in Claim 1 , characterized in that it includes a control panel (3.5) that allows the user to set a target analysis value for the filtered water.

Description

A MODULAR MECHANICAL-CHEMICAL AND SOFTWARE-SUPPORTED IMMERSION-TYPE ELECTRONIC WATER FILTER SYSTEM WITH UVC LAMP TECHNICAL FIELD The invention relates to a water filtration system that serves as an alternative to large, bulky, and permanently installed household filters, which are difficult to transport. The invention consists of modular, attachable, and detachable components, includes a UVC filter, software integration, and wireless connectivity options, and operates by immersion in water. The system has a wide range of applications, requires minimal maintenance, and does not generate wastewater. BACKGROUND Portable water filtration systems have become widely used, especially for campers, travelers, outdoor enthusiasts, and emergency situations. The first portable filtration systems primarily aimed to separate large particles from water using mechanical filtration. With advancements in technology, advanced filtration techniques such as chemical and biological purification and UV light disinfection have also been integrated. Modern portable water filtration systems play a critical role in ensuring users have access to reliable drinking water sources. Commonly used methods in current portable water filtration systems include microfiltration, activated carbon filtration, and ultraviolet (UV) sterilization. These systems are designed to filter natural water sources such as rivers, lakes, or rainwater by removing harmful microorganisms, chemicals, and heavy metals. UV sterilization technology, in particular, is considered an effective method for eliminating bacteria and viruses, and its integration into portable systems ensures a safer water supply. Portable filtration systems available on the market are typically designed to be lightweight, durable, and user-friendly. There is a wide range of products, from compact, backpack-sized models to more complex systems offering large capacity and multi-stage filtration. Additionally, to minimize energy requirements, systems powered by manual pumps or solar energy have been developed. These technologies make water purification both more environmentally friendly and more convenient. AIM OF THE INVENTION Potential usage scenarios and objectives of our invention are outlined below: Household Use: The filtration system can be used in pitchers, countertop dispensers with faucet attachments, or specially designed containers compatible with the system. Users can easily transport and use the filtration system in secondary residences such as vacation homes or rural houses without incurring additional costs, thanks to its portable and practical design. Camping, Caravans, and Outdoor Activities: The product is designed to be compact and portable, making it highly suitable for such uses. Outdoor enthusiasts often encounter unknown or untrusted water sources, which can sometimes lead to health issues. The UVC-integrated filtration system helps prevent these problems. Additionally, the system can be used to purify water stored in caravan drinking water tanks, ensuring safe water consumption during travels. Well and Rainwater Users: With the increasing drought worldwide and in our country, the use of well and rainwater has risen. This filtration system, or larger versions with expanded filters and batteries, can be utilized in water storage tanks. The system can be lowered into wells or tanks using a reel mechanism similar to a fishing line, enabling the filtration of large volumes of water efficiently. Natural Disasters, Wars, and Mass Migrations: In such situations, water supply systems often become disrupted, and drinking water is exposed to natural and artificial contamination. Our filtration system provides a reliable solution by ensuring access to clean and safe drinking water, helping people maintain a healthy life during crises. The operating principle of the invention is based on a battery system. The battery can be charged using any power source that matches its operating voltage and current requirements. Additionally, for outdoor use scenarios, it can be supported by a compact solar panel. The system also includes both wired and wireless charging options to enhance convenience and adaptability. FIGURE LIST Figure 1 . Integrated view of the filtration system Figure 2. First filtration layer Figure 3. Second filtration layer Figure 4. Third filtration layer Correspondence of Numbering in Figures: 1 . First Filtration Layer 1.1. Connection adapter 1.2. Suspension hole 1.3. Coarse filter 1.4. Connection adapter 1.5. Drain outlet 1.6. Raised base 2. Second Filtration Layer 2.1. Connection adapter 2.2. Cap 2.3. Drain outlet 2.4. Connection adapter 2.5. Raised base 2.6. Water inlet 2.7. Chamber 3. Third Filtration Layer 3.1 . Water inlet 3.2. Connection adapter 3.3. Battery 3.4. Vacuum/recirculation motor 3.5. Control panel 3.6. Control buttons 3.7. UVC LED 3.8. Water analysis sensor 3.9. Charging port 3.10. Drain outlet 3.11. Base DETAILED DESCRIPTION OF THE INVENTION The in