Patent application number | Description | Published |
20100266742 | Apparatus and methods for creating sparkling water from the atmosphere - What is disclosed is a system designed to extract water moisture from the atmosphere, highly purify and condition the extracted water, and provide optional carbonation of the extracted water for human consumption. In one embodiment, the device collects water-vapor condensation from filtered intake air, then subjects the condensate to a series of purification filters and to a sterilization process in order to produce drinking water, while also providing a means to combine the purified water with CO | 10-21-2010 |
20120060531 | Versatile environmentally conscious apparatus - Disclosed is a system to extract water moisture from the atmosphere, highly purify and condition the extracted water, and provide beverages for human consumption. In one embodiment, the device collects water-vapor condensation from filtered intake air, and then subjects the condensate to a series of purification filters and to a sterilization process in order to produce drinking water. The system may then use the water produced to provide carbonated drinks, flavored drinks, coffee drinks, or ice. The system may also play music and charge a portable electronic device. The disclosed system may incorporate the variations in different combinations. | 03-15-2012 |
20130042642 | Versatile environmentally conscious apparatus - Disclosed is a system to extract water moisture from the atmosphere, highly purify and condition the extracted water, and provide beverages for human consumption. In one embodiment, the device collects water-vapor condensation from filtered intake air, and then subjects the condensate to a series of purification filters and to a sterilization process in order to produce drinking water. The system may then use the water produced to provide carbonated drinks, flavored drinks, coffee drinks, or ice. The system may also play music and charge a portable electronic device. The disclosed system may incorporate the variations in different combinations. | 02-21-2013 |
20140053580 | Systems and methods for potable water production - Systems and methods are disclosed for water collection from atmospheric moisture in large quantities in uncontrolled outdoor environments where the temperature may be cold and humidity levels low. To extract water from air when the dew point is low, a heat exchanger cools to a point where water vapor is deposited on its surface as ice. The heat exchanger then cycles through a heating phase to melt the ice and generate liquid water. The accumulation of frost is advantageous. Frost accumulation enables water collection when the dew point is low. Disclosed variations enhance efficiency and environmental tolerance. | 02-27-2014 |
20150033774 | Systems And Methods For Potable Water Production - Systems and methods are disclosed for water collection from atmospheric moisture in large quantities in uncontrolled outdoor environments where the temperature may be cold and humidity levels low. To extract water from air when the dew point is low, a heat exchanger cools to a point where water vapor is deposited on its surface as ice. The heat exchanger then cycles through a heating phase to melt the ice and generate liquid water. The accumulation of frost is advantageous. Frost accumulation enables water collection when the dew point is low. Disclosed variations enhance efficiency and environmental tolerance. | 02-05-2015 |
Patent application number | Description | Published |
20130041273 | Methods, Systems and Devices for Detecting Atrial Fibrillation - Disclosed herein are various embodiments of methods, systems and devices for detecting atrial fibrillation (AF) in a patient. According to one embodiment, a patient places his or her left and right hands around left and right electrodes and a hand-held atrial fibrillation detection device acquires an electrocardiogram (ECG) from the patient over a predetermined period of time such as, by way of example, one minute. After acquiring the ECG from the patient, the device processes and analyzes the ECG and makes a determination of whether the patient has AF. The device may further be configured to provide a visual or audio indication of whether the patient has AF, or does not have AF. The device may be employed in a health care provider's office without the need for complicated or expensive diagnostic equipment, and is capable of providing an on-the-spot and low-cost diagnosis of AF. The device may further be connected to a physician's computer in the office, which may be configured to store the results of the analysis and the patient's ECG, and which may further be configured to carry out additional processing and analyses of the acquired and processed data. Moreover, the physician's computer may be operably connected to a remote server configured to store, process and analyze the ECG and the results provided by the hand-held device. | 02-14-2013 |
20140330149 | Methods, Systems and Devices for Detecting Atrial Fibrillation - Disclosed herein are various embodiments of methods, systems and devices for detecting atrial fibrillation (AF) in a patient. According to one embodiment, a patient places his or her left and right hands around left and right electrodes and a hand-held atrial fibrillation detection device acquires an electrocardiogram (ECG) from the patient over a predetermined period of time such as, by way of example, one minute. After acquiring the ECG from the patient, the device processes and analyzes the ECG and makes a determination of whether the patient has AF. The device may further be configured to provide a visual or audio indication of whether the patient has AF, or does not have AF. The device may be employed in a health care provider's office without the need for complicated or expensive diagnostic equipment, and is capable of providing an on-the-spot and low-cost diagnosis of AF. The device may further be connected to a physician's computer in the office, which may be configured to store the results of the analysis and the patient's ECG, and which may further be configured to carry out additional processing and analyses of the acquired and processed data. Moreover, the physician's computer may be operably connected to a remote server configured to store, process and analyze the ECG and the results provided by the hand-held device. | 11-06-2014 |