| Patent application number | Description | Published |
|---|
| 20090184174 | Waterfall apparatus - The invention is directed to, in one embodiment, a waterfall apparatus having an at least one water supply inflow supplying water to the waterfall apparatus and a body member having the water flowing therethrough. A water accumulation portion of the body member can be coupled to and filled by a water supply inflow. An at least one baffle having an at least one tube member interspaced thereon and extends from the accumulation portion of the body member to an outlet portion of the body member. An outlet flow path is in communication with the outlet portion of the body member, passing the water from the outlet portion of the body member along the outlet flow path and through a waterfall outlet, forming a sheet like waterfall outflow. The at least one interspaced tube member, angled entry portion and optional deflection member work to deflect, slow and smooth the flow, reduce debris accumulation and generally improve the sheet like quality and consistency of the flow of the sheet-like waterfall. | 07-23-2009 |
| 20090272825 | Laminar water jet with pliant member - An apparatus having a housing with a water channel, for instance a laminar water flow, flowing there through. A pliant member is provided and contained within at least a portion of the housing with an outer surface and an inner surface, the water channel passing substantially unimpeded along and through the inner surface of the pliant member. An at least one water input, an at least one filter member and an at least one jetting element are also provided. The pliant member is oriented within the housing and surrounds at least a portion of water channel, the portion of the water channel flowing therethrough, and the pliant member expanding to absorb surges within the water channel from the input of water flowing in from the at least one water input. | 11-05-2009 |
| 20100187185 | pH balancing system - A method and an apparatus for dispensing a pH balancing solution are provided. The apparatus includes a system having a chlorine generator with a power supply coupled to the chlorine generator, the chlorine generator servicing a body of water and chlorinating it. A pH monitoring and balancing unit is provided. The pH monitoring and balancing unit monitors and measures when power is supplied from the power supply to the chlorine generator to produce chlorine and thereby calculates an operational time for the chlorine generator. A pH monitoring and balancing unit controller is also provided, the pH monitoring and balancing unit controller computing an estimated pH level based on the production of the chlorine generator from the operational time measured and then determining if the estimated pH is outside of a desired range, and, if it is outside of the desired range, metering a discrete amount of pH balancing solution based on this estimated pH level to return the pH of the body of water to within the desired range. | 07-29-2010 |
| 20100250449 | INLINE CHLORINATOR WITH INTEGRAL CONTROL PACKAGE, HEAT DISSIPATION AND WARRANTY INFORMATION ACCUMULATOR - An inline chlorinator with a housing having an inlet end and an outlet end in communication with the swimming pool bringing water from the pool through the inlet end and back to the pool from the outlet end and an upper compartment having an electronics section is provided. It includes a power source coupling and an at least one sensor sensing changes in the power source coupling. A controller unit contained within the electronics section, the controller unit being electrically coupled to a power source and an at least one electrolytic plate. An at least one hours of operation counter is provided. A heat sink member is also provided and is in thermal communication with the controller, where the flow of the water in the swimming pool water purification system cools the heat sink member, controller unit, and the electronics in the electronics section. Where the heat sink is separated from the water coming in the inlet end by a separation section, the separation section being a concurrent wall of the electronics compartment and the separation section in direct contact with the water coming from the pool at the inlet end, the separation section being in direct contact with the heat sink and both the heat sink and the separation section being continually cooled by the water flowing in through the inlet end of the housing. | 09-30-2010 |
| 20100308241 | ELECTRONICALLY CONTROLLED VALVE ACTUATOR IN A POOL OR SPA WATER LINE SYSTEM - An electronically controlled pool or spa actuator plumbed in a water line within a water system, having an at least one valve with a valve stem in the plumbed water line within the water system, an at least one actuator, an at least one actuator housing, an at least one electronic controller in communication with the actuator, an at least one shaft coupled to the actuator and said valve; an at least one shaft encoding device; and an at least one user interface with multiple indicator elements indicating the position of valve. A controller controlling the actuator and allowing for the programming of a custom set point. The custom set point being used to define a safe area, the valve operating within the safe area and requiring that an override input be depressed to operate the valve outside of the safe area. | 12-09-2010 |
| 20110042489 | Laminar flow water jet with illumination enhancer - A laminar flow water jet having a housing with a water channel flowing there through. An at least one water input admits water into the housing and the water channel, An at least one filter member is provided along the water channel. An at least one jetting element in communication with the housing and jets a laminar flow tube. or segment from the jet. An at least one lighting element emits light and communicates with the laminar flow tube or segment. An at least one additive supply element communicates with the at least one laminar flow tube or segment, where a laminar water flow is jetted through the at least one jetting element to form the laminar flow tube or segment which is lit by the light emitted by the at least one lighting element and receives an additive stream from the at least one additive supply element to produce wave effects within the laminar flow tube or segment. | 02-24-2011 |
| 20110073670 | LAMINAR FLOW WATER JET WITH WAVE SEGMENTATION, ADDITIVE, AND CONTROLLER - A laminar flow water jet system has a housing with a water channel, the housing creating a laminar flow in the water channel from the water flowing through the housing. A lighting element is provided with a controller. The laminar flow passes through at least one jetting element having a cup portion and a nozzle portion and jetting a laminar flow tube from the laminar flow passing through the water channel in the housing at the base portion. The laminar flow tube is ejected from the nozzle as a laminar flow jet having a smoothed tubular surface jacket and being lit by the lighting element. An additive source drips additive into the cup portion at a rate controlled by the controller, the additive being absorbed by capillary action by the laminar flow tube as it is passed through the nozzle to become the laminar flow jet. The absorption process drawing in air from the surrounding atmosphere and creating perturbations or bubbles within the laminar flow tube. In a further mode either an energetic pulse or an additive wave formed by increasing the volume of additive in the cup portion of the jetting element creates a wave perturbation or interruption throughout the laminar flow tube creating a variation in the laminar flow tube and the smoothed tubular surface jacket of the resulting laminar flow jet. | 03-31-2011 |
