ECOWATER SYSTEMS LLC Patent applications |
Patent application number | Title | Published |
20130118987 | ANTI-SCALE WATER TREATMENT SYSTEM AND METHOD - This invention relates to an anti-scale water treatment system, composition and related methods. The system suppresses hard scale formation by releasing small amounts of transforming agent into water. | 05-16-2013 |
20120078722 | Remotely controlled water treatment system and a method of remotely controlling a water treatment system - A water treatment system, such as a water softener, is remotely operated and a method of remotely controlling a water treatment system. In a first embodiment, the water treatment system having a web server is delivered and installed on the users LAN. The user PC is redirected by a remote server to the water treatment system by use of the water treatment system MAC address, IP protocol address and user information. In this manner, the user is able to control the water treatment system and communicate with the remote server. In a second and third embodiment, the water treatment system and user PC communicate indirectly via the remote server. In the second embodiment, the water treatment system is provided with a wireless network interface to couple to the remote server. In the third embodiment, the water treatment system is provided with an internet interface. | 03-29-2012 |
20110147298 | ANNULAR COLLAR FOR ENCAPSULATED WATER TREATMENT SYSTEM - A water treatment system is provided having an encapsulate manifold with a reverse osmosis cartridge and one or more filter cartridges, and an annular collar to adapt and connect the manifold to the cartridges. The filter cartridge includes a detent for being received within a slot in the manifold head for secure locking engagement. The water treatment system is also provided in a modular arrangement wherein manifold heads are physically and fluidly coupled together via a clip which interfaces with the modular manifold heads. The water treatment system also allows for a retrofit application to include a permeate pump. The cartridges are also designed to provide a minimum annular inlet gap to minimize spillage during changing of the cartridges. | 06-23-2011 |
20100320152 | Apparatus and Method for Isolation from and Support of a Carbon Filtration System from an Ion Exchange System - A combination filtration and ion exchange system is provided. In one embodiment, the system includes a valve rotor, a carbon treatment tank, an ion exchange treatment tank and a valve. The valve rotor having a source water inlet, a service water outlet, a water treatment outlet, a water treatment inlet and a drain outlet. The carbon treatment tank having a service inlet and a service outlet, the service inlet coupled to the water treatment outlet. The ion exchange treatment tank having a service inlet and a service outlet, and the service outlet is coupled to the water treatment inlet. The valve having a carbon tank port, an ion exchange port, and a water treatment outlet, and a valve member having a first position and a second position, wherein in the first position, the service inlet of the ion exchange treatment tank is in fluid communication with the service outlet of the carbon treatment tank, and in the second position, the service inlet of the of the ion exchange treatment tank is in fluid communication with the water treatment outlet. | 12-23-2010 |
20100237001 | ENCAPSULATED WATER TREATMENT SYSTEM - A water treatment system is provided having an encapsulate manifold with a reverse osmosis cartridge and one or more filter cartridges. The filter cartridge includes a detent for being received within a slot in the manifold head for secure locking engagement. The water treatment system further includes a single probe conductivity monitoring system for monitoring the performance of a reverse osmosis membrane. The water treatment system is also provided in a modular arrangement wherein manifold heads are physically and fluidly coupled together via a clip which interfaces with the modular manifold heads. The water treatment system also allows for a retrofit application to include a permeate pump. The cartridges are also designed to provide a minimum annular inlet gap to minimize spillage during changing of the cartridges. | 09-23-2010 |
20100237000 | ENCAPSULATED WATER TREATMENT SYSTEM - A water treatment system is provided having an encapsulate manifold with a reverse osmosis cartridge and one or more filter cartridges. The filter cartridge includes a detent for being received within a slot in the manifold head for secure locking engagement. The water treatment system further includes a single probe conductivity monitoring system for monitoring the performance of a reverse osmosis membrane. The water treatment system is also provided in a modular arrangement wherein manifold heads are physically and fluidly coupled together via a clip which interfaces with the modular manifold heads. The water treatment system also allows for a retrofit application to include a permeate pump. The cartridges are also designed to provide a minimum annular inlet gap to minimize spillage during changing of the cartridges. | 09-23-2010 |
20100191497 | ENCAPSULATED WATER TREATMENT SYSTEM - A water treatment system is provided having an encapsulate manifold with a reverse osmosis cartridge and one or more filter cartridges. The filter cartridge includes a detent for being received within a slot in the manifold head for secure locking engagement. The water treatment system further includes a single probe conductivity monitoring system for monitoring the performance of a reverse osmosis membrane. The water treatment system is also provided in a modular arrangement wherein manifold heads are physically and fluidly coupled together via a clip which interfaces with the modular manifold heads. The water treatment system also allows for a retrofit application to include a permeate pump. The cartridges are also designed to provide a minimum annular inlet gap to minimize spillage during changing of the cartridges. | 07-29-2010 |
20100101990 | Apparatus and Method for Isolation from and Support of a Carbon Filtration System from an Ion Exchange System - A combination filtration and ion exchange system is provided. In one embodiment, the system includes a valve rotor, a carbon treatment tank, an ion exchange treatment tank and a valve. The valve rotor having a source water inlet, a service water outlet, a water treatment outlet, a water treatment inlet and a drain outlet. The carbon treatment tank having a service inlet and a service outlet, the service inlet coupled to the water treatment outlet. The ion exchange treatment tank having a service inlet and a service outlet, and the service outlet is coupled to the water treatment inlet. The valve having a carbon tank port, an ion exchange port, and a water treatment outlet, and a valve member having a first position and a second position, wherein in the first position, the service inlet of the ion exchange treatment tank is in fluid communication with the service outlet of the carbon treatment tank, and in the second position, the service inlet of the of the ion exchange treatment tank is in fluid communication with the water treatment outlet. | 04-29-2010 |
20080203033 | Encapsulated Water Treatment System - A water treatment system is provided having an encapsulate manifold with a reverse osmosis cartridge and one or more filter cartridges. The filter cartridge includes a detent for being received within a slot in the manifold head for secure locking engagement. The water treatment system further includes a single probe conductivity monitoring system for monitoring the performance of a reverse osmosis membrane. The water treatment system is also provided in a modular arrangement wherein manifold heads are physically and fluidly coupled together via a clip which interfaces with the modular manifold heads. The water treatment system also allows for a retrofit application to include a permeate pump. The cartridges are also designed to provide a minimum annular inlet gap to minimize spillage during changing of the cartridges. | 08-28-2008 |