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1. 发明授权

US11563310B2 Bipolar ionizer with feedback control 有权
公开(公告)号：US11563310B2
公开(公告)日：2023-01-24
申请号：US17527115
申请日：2021-11-15
申请人： John Walsh , Robert Mowris
发明人： John Walsh , Robert Mowris
IPC分类号： H01T23/00 , A61L9/22 , F24F11/32 , F24F8/30 , F24F8/10 , F24F11/52
摘要： A bipolar ionizer comprising an electronic circuit, microprocessor, and step-up transformer providing high-voltage signals to carbon-fiber electrodes producing bipolar ion concentrations greater than +/−200 million ions per cubic centimeter. The bipolar ionizer monitors, reduces, and converts high-voltage signals to feedback signals used by the microprocessor to vary a frequency and a duty cycle of a digital signal to control an excitation signal for a step-up transformer output voltage to consistently maintain an unbalanced high-voltage output ratio less than 80 percent, balanced bipolar ion concentration ratio greater than 80 percent, and zero ozone concentration over a range of electrical signal inputs. The microprocessor calculates and reports bipolar ionizer concentrations based on feedback signals. The microprocessor monitors concentrations of Volatile Organic Compounds (VOCs) in an airflow serving the bipolar ionizer and adjusts the positive/negative DC high-voltage signals and bipolar ion concentration when VOC concentrations are above a threshold.

2. 再颁专利

USRE49383E1 External thermostat fan controller 有权
公开(公告)号：USRE49383E1
公开(公告)日：2023-01-24
申请号：US17351012
申请日：2021-06-17
申请人： John Walsh , Robert Mowris
发明人： John Walsh , Robert Mowris
IPC分类号： G05D23/00 , G05D23/19 , F24F1/22 , F24F11/70
摘要： A programmable controller circuit that can be connected directly to the fan switch of any thermostat with a forced air heating and/or cooling system that includes a blower fan for circulating air throughout the home. The controller can be installed with minimal modifications to the existing wiring. The present invention increases the efficiency of the cooling system by evaporating condensate and extracting residual coolness from the thermal mass of the evaporator coils. The present invention can be programmed with a single button. A method of adapting additional fan run time based on compressor run time an AC compressor off time and an AC compressor on time.

3. 发明申请

US20220352696A1 Bipolar Ionizer with Feedback Control 有权
公开(公告)号：US20220352696A1
公开(公告)日：2022-11-03
申请号：US17527115
申请日：2021-11-15
申请人： John Walsh , Robert Mowris
发明人： John Walsh , Robert Mowris
IPC分类号： H01T23/00 , A61L9/22
摘要： A bipolar ionizer comprising an electronic circuit, microprocessor, and step-up transformer providing high-voltage signals to carbon-fiber electrodes producing bipolar ion concentrations greater than +/−200 million ions per cubic centimeter. The bipolar ionizer monitors, reduces, and converts high-voltage signals to feedback signals used by the microprocessor to vary a frequency and a duty cycle of a digital signal to control an excitation signal for a step-up transformer output voltage to consistently maintain an unbalanced high-voltage output ratio less than 80 percent, balanced bipolar ion concentration ratio greater than 80 percent, and zero ozone concentration over a range of electrical signal inputs. The microprocessor calculates and reports bipolar ionizer concentrations based on feedback signals. The microprocessor monitors concentrations of Volatile Organic Compounds (VOCs) in an airflow serving the bipolar ionizer and adjusts the positive/negative DC high-voltage signals and bipolar ion concentration when VOC concentrations are above a threshold.

4. 发明申请

US20060117767A1 System and method for verifying proper refrigerant and airflow for air conditioners and heat pumps in cooling mode 有权
公开(公告)号：US20060117767A1
公开(公告)日：2006-06-08
申请号：US11152302
申请日：2005-06-14
申请人： Robert Mowris
发明人： Robert Mowris
IPC分类号： G01M1/38 , F25B45/00
CPC分类号： F25B49/005 , F25B45/00 , F25B2500/19
摘要： An apparatus for the diagnosis of a cooling system which receives inputs in the form of data about a cooling system, and measurements made from the cooling system, and which then calculates the amount of refrigerant to be removed or added to the cooling system for optimal performance. In addition, methods for ensuring correct setup of a cooling system are disclosed. The methods may apply to FXV (fixed expansion valve) systems and may include making and displaying a prediction of a refrigerant adjustment based upon measurements such as return air wetbulb temperature, condenser air entering temperature, refrigerant superheat vapor line temperature, and refrigerant superheat vapor line pressure. A method for ensuring correct setup of a cooling system is disclosed. The method may apply to TXV (thermostatic expansion valve) systems and may include making and displaying a prediction of a refrigerant adjustment based upon measurements such as refrigerant subcooling liquid line temperature and refrigerant subcooling liquid line pressure. A method for ensuring correct setup of a cooling system is disclosed. The method may include making and displaying a prediction of a refrigerant adjustment or of an airflow adjustment based upon measurements such as return air wetbulb temperature, return air drybulb temperature and supply air drybulb temperature. Recommendations may also be based upon evaporator coil temperature splits. Methods for visual identification, archiving of associated measurement and verification data, and viewing of data for a correct setup of a cooling system are disclosed. Methods of maintaining correct setup of a cooling system through use of labels and locking, double-sealing, color-coded, and laser etched Schrader caps are disclosed.

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