Patent application number | Description | Published |
20130041270 | BLOOD PRESSURE MEASURING DEVICE AND SYSTEM WITH AUTOMATIC SELF-EXAMINATION AND SELF-CALIBRATION FUNCTIONS - A blood pressure measuring system with automatic self-examination and self-calibration functions, which utilizes an examining and calibrating unit to automatically compare pressure information detected by a signal detection unit with an original factory calibration value for pressure, to self-calibrate the blood pressure measuring system, wherein the examining and calibrating unit can be arranged in a blood pressure measuring device or in an external electronic device, for providing users a method to confirm accuracy of the blood pressure measuring system to prevent serious consequence caused by miscalculations of blood pressure and physiological values. Accordingly, original factory calibration can be skipped to save time and money; calibration and examination processes are simplified and more convenient. | 02-14-2013 |
20130053712 | ELECTRONIC VITAL-SIGN MONITORING SYSTEM - A electronic vital-sign monitoring system is provided here, which uses an external electronic device to compute a physiological value detected by an electronic vital-sign monitoring device and obtain a heart frequency spectrum; and provide power to the electronic vital-sign monitoring system; and further transfer the computed physiological value and the heart frequency spectrum to a database for data integration and incident reporting. In addition to the original function of detecting physiological values, the electronic vital-sign monitoring system further can detect heart frequency spectrum and offers telecare service to help patients, elders and general users according to different requirements. | 02-28-2013 |
20140039275 | ELECTRONIC VITAL-SIGN SYSTEM WITH A MANUAL VITAL-SIGN DATA INPUT FUNCTION - The present invention discloses an electronic vital-sign system with a manual vital-sign data input function, wherein a vital-sign recording unit is added to an electronic vital-sign system and used to input vital-sign data manually. The electronic vital-sign system detects vital-sign data automatically and receives other vital-sign data manually input by the user, such as the data of at least one of respiration rate, blood glucose, body temperature, body weight, food intake volume, fluid infusion volume, urine volume, stool volume and pain score. The system transmits the detected vital-sign data and manually-input vital-sign data to a cloud database where the vita-sign data is processed and integrated. The present invention incorporates a manual vital-sign data input function with the original vital-sign detection function and far-end transmission function of an electronic vital-sign system to provide appropriate assistance for hospitals, telecare centers, elderly nursing centers, elderly communities, and senior citizens living alone. | 02-06-2014 |
20140206950 | WARD CLOUD SYSTEM - A ward cloud system comprises an intelligent cloud database and an intelligent electronic vital-sign monitoring device. The intelligent cloud database receives first vital-sign information detected by the intelligent electronic vital-sign monitoring device and second vital-sign information manually input by users through an intelligent transmission unit, integrates received information and undertakes far-end clock synchronization of the intelligent cloud database and intelligent electronic vital-sign monitoring device. The ward cloud system further comprises a far-end calibration unit using the intelligent cloud database to examine and calibrate accuracy of the intelligent electronic vital-sign monitoring device through the intelligent transmission unit from a far end. The present invention adds to an ordinary electronic vital-sign monitoring system the following functions: a manual vital-sign value input function, a far-end automatic clock synchronization function, a far-end calibration function and an intelligent operation function and thus can avoid the serious consequences caused by measurement inaccuracy or clock non-synchronicity. | 07-24-2014 |
20140310024 | WIFI CLOUD ELECTRONIC VITAL-SIGN MONITORING SYSTEM - A WiFi cloud electronic vital-sign monitoring system has the function of monitoring physiological information and the WiFi transmission unit for transmitting the physiological information or the computation result to a cloud system. Thus, the WiFi cloud electronic vital-sign monitoring system with the WiFi distant transmission function can provide suitable and convenient assistance to the hospitals, the tele-care centers, the nursing homes, the elderly communities and the family care users. | 10-16-2014 |
20150031962 | MEDICAL CLOUD SYSTEM WITH AN AUTOMATICALLY CHECKING AND FEEDING BACK SELF-STATUS FUNCTION - A medical cloud system with an automatically checking and feeding back self-status function utilizes a database to receive and integrate a physiological information, an electronic physiological monitoring device intrinsic information, an electronic physiological monitoring device status information, an electronic physiological monitoring device error code or a miss operation information from an electronic physiological monitoring device through a smart transmitting unit. The database can notify user or manager of the electronic physiological monitoring device of arising of the electronic physiological monitoring device status information, the electronic physiological monitoring device error code or the miss operation information, and confirm the system status. The medical cloud system with an automatically checking and feeding back self-status function has the function of monitoring and long-distance transmitting to ensure the monitoring quality and prevent the serious consequence caused by fault or error of the electronic physiological monitoring device. | 01-29-2015 |
20150157217 | Analysis System for Cardiac Information and Analyzing Method Thereof - The invention provides an analysis system for cardiac information and analyzing method thereof used for analyzing the cardiac information of a subject. The analysis system comprises a blood pressure measuring module connected to a cuff provided on a testing portion of the subject, used for measuring blood pressure through inflating and deflating the cuff; a computing module electrically connected to the blood pressure measuring module, used for measuring a maximum of fixed pressure for the blood pressure pulse on the testing portion; a controlling module electrically connected to the cuff and computing module, used for controlling the inflating of the cuff according to the measured fixed pressure for the blood pressure pulse; a pulse measuring module electrically connected to the controlling module; and a signal processing module electrically connected to the pulse measuring module. The invention provides a simple operating method. Not only the blood pressure can be measured, but also abnormal heart beat rate and abnormal coronary artery frequency can be analyzed. Thus abnormal structures of heart and coronary artery can be detected. | 06-11-2015 |
Patent application number | Description | Published |
20100012594 | Method of collecting high-level radioactive uranium powder underwater - This present invention is related to a method of collecting high-level radioactive contaminated uranium powder underwater. It utilizes a long rod fixed to the pipe of the sewage pump at bottom, and takes another end of the sewage pump to connect to the sediment bag to collect uranium powder which is dispersed and contaminates the pond. Inhaling the pond water contains uranium powder into the sediment bag by sewage pump that is joined to a collecting can under it and waiting for precipitation of the powder. When the uranium powder in the sediment bag is completely precipitated into the collecting can, operator can utilize submersible pump to drain the pond water from the sediment bag. Operator may hold the cable wire of the uranium powder collecting can manually to move it to the collecting shelf and repeat the process several times until the high-level radioactive uranium powder in the contaminated pond are all collected on the uranium powder collecting shelf. | 01-21-2010 |
20110024364 | Filtration separation method for waste resin containing highly radioactive uranium powder and device thereof - A filtration separation method for waste resin containing highly radioactive uranium powder and device thereof is mainly used for the waste resin after water treatment process in a nuclear facility. The uranium powder contained in the waste resin is highly radioactive. Thus, prior to the treatment of the waste resin, it is necessary to filter and separate the highly radioactive uranium powder to reduce the radioactivity. It is to put the uranium powder containing waste resin into an underwater holding tank and withdraw the waste resin by an underwater pump into a uranium powder filtration box. Then the uranium powder filtration box is lifted by a hoist to move to an underwater ultrasonic cleaner. High-pressure water flushing is applied and followed by underwater ultrasonic cleaning. Then the cleaning water (containing precipitated uranium powder) from the ultrasonic cleaner is drained to uranium powder collection device. If the radioactivity of the waste resin is still high, high-pressure cleaning by water nozzle flushing and ultrasonic cleaning are applied several times until the radioactivity of the waste resin is lowered to the treatment standard and converted to low-radioactivity waste for further treatment. | 02-03-2011 |
20110296932 | APPARATUS AND METHOD FOR SAMPLING UNDERWATER RADIOACTIVE SOLUTION - The present disclosure provides an apparatus and a method for sampling underwater radioactive solution. The apparatus and method are used for sampling underwater radioactive waste stored in the radioactive reservoir of nuclear facilities or in the container of said reservoir, in order to determine the nuclides and the radiation dosage at different depths in the radioactive solution. | 12-08-2011 |
20120055882 | APPARATUS AND METHOD FOR COLLECTING SOLID MICROPARTICLES FLOATING IN WATER - The present invention relates to an apparatus and method for collecting solid microparticles floating in water, and more particularly, to a safe, ease to use, and environmental friendly collecting apparatus and method adapted for collecting radioactive solid microparticles floating and depositing in a cooling water tank of nuclear facility or a tank for storing radioactive materials. | 03-08-2012 |
20130001430 | Inspection method and apparatus for shielding container for high-activity waste - An inspection method and apparatus for shielding container for high-activity waste is mainly to design the inspection depth of a radiation source in a shielding container and the inspection zone outside the shielding container. It employs a sticking lifting buckle ring at the container cover bottom and a flexible pull string to hang a radiation source inside the shielding container. Between the shielding container and the container cover, there is a compression resistant tube to allow the flexible pull string to pass through and extend outside the shielding container. The flexible pull string allows descending and ascending operation of the radiation source to different height inside the shielding container. The method also includes measuring and recording surface dose rate in each inspection zone outside the shielding container. With the measured surface dose rate from each inspection zone, the method uses a radiation shielding estimation and verification procedure to determine defected shielding container. | 01-03-2013 |
20130167668 | APPARATUS AND METHOD FOR SAMPLING UNDERWATER RADIOACTIVE SOLUTION - An apparatus and a method for sampling underwater radioactive solution. The apparatus includes a main unit, a connecting rod inserted into the main unit, a connecting ring connected to one side of the connecting rod, a container unit connected to the opposite side of the connecting ring, a solution access channel, an air motor for changing air pressure in the container unit to draw or extract the radioactive solution in or out of the container unit, a holder for fixing the air motor on the main unit, a synchronizing connector for connecting the connecting rod to the air motor, so as to synchronize the back-and-forth movement of the connecting rod with the air pressure of the air motor, a control unit for controlling the operation of the air motor, a flexible pipe connecting the air motor to the control unit, and a depth-setting unit. | 07-04-2013 |
20130333329 | METHOD FOR PORTIONING HIGH RADIATION INTENSITY WASTE AND APPARATUS THEREFOR - The present invention is directed to a method for portioning high radiation intensity waste and an apparatus thereof. A hanging mechanism hangs both a manual lifting mechanism and a lead shield, wherein the manual lifting mechanism is provided with a net basket hanging chain extending downwards, wherein the net basket hanging chain can be manipulated to be lifted or lowered. The net basket hanging chain is secured to a net basket containing the high radiation intensity waste. The lead shield is arranged under the hanging mechanism and in a path, along which the net basket is lifted or lowered, wherein the lead shield is provided with a space having an opening facing down. | 12-19-2013 |
20150020405 | Method of drying high-level radioactive wastes and device thereof - A method of drying high-level radioactive wastes and device thereof contains a suspension mechanism for hanging a manual elevating mechanism, and a shielding cover. The manual elevating mechanism couples with a basket for accommodating wastes by using a hanging rope, and the shielding cover is fixed below the suspension mechanism and in a moving path of the basket. The basket is moved to a storage tank containing water in which radioactive wastes are stored, and the radioactive wastes are pumped into the basket by means of a pump. The basket is then lifted above a water surface of the storage tank and received in the shielding cover, and then the shielding cover is moved into a water holder so as to drain waters in the basket. The basket is further moved onto a heating seat to be heated and a vacuum equipment is started to dry the radioactive wastes. | 01-22-2015 |