Wesner
John Christopher Wesner, Liberty Township, OH US
Patent application number | Description | Published |
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20150118168 | LATE STAGE ADDITION OF RHEOLOGY MODIFIER - Methods of making personal care compositions, such as dentifrices, involving the addition of rheology modifiers at a later stage in the personal care composition formation process. | 04-30-2015 |
20150118271 | PROCESS FOR MAKING A PERSONAL CARE COMPOSITION USING COMPACTED RHEOLOGY MODIFIERS - A method of making a personal care composition, such as dentifrice, using compacted rheology modifiers to control viscosity development. | 04-30-2015 |
Markus Wesner, Stuttgart DE
Patent application number | Description | Published |
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20120291987 | SYSTEM FOR A MOTOR VEHICLE FOR HEATING AND/OR COOLING A BATTERY AND A VEHICLE INTERIOR - In a system for a motor vehicle for heating and/or cooling a battery and a motor-vehicle interior, comprising a coolant circuit which is coupled thermally to the battery, a refrigerating circuit with a condenser, a compressor, a first evaporator for cooling the motor-vehicle interior and a second evaporator for cooling the battery. The second evaporator is thermally coupled to the coolant circuit via an evaporator heat exchanger and a surrounding-air heat exchanger is coupled thermally to the coolant circuit for the transmission of waste heat of the battery to the surrounding air. The waste heat of the battery is used to heat the motor-vehicle interior. The evaporator heat exchanger is provided with at least one device for transmitting heat from the evaporator heat exchanger to the surrounding air and/or the motor-vehicle interior, for transmitting waste heat of the battery to the surrounding air and/or the motor-vehicle interior. | 11-22-2012 |
20130061630 | HEAT EXCHANGER - In an evaporator having plate-type construction, a plurality of stack plates are stacked atop one another such that a first fluid passage for a first fluid as a refrigerant and a second fluid passage for a second fluid as a coolant is provided and are formed between the stack plates. The stack plates have first apertures for supply and return of the first fluid, second apertures for supply and return of the second fluid, a first inlet opening and outlet opening for entry and exit of the first fluid, a second inlet opening and outlet opening for entry and exit of the second fluid, and an expansion valve for the first fluid that is built onto or integrated into the rest of the heat exchanger. The evaporator incorporates a shutoff unit for the first fluid that is built onto or integrated into the rest of the heat exchanger. | 03-14-2013 |
20140013787 | HEAT EXCHANGER - Disclosed herein is a plate-type heat exchanger or chiller, with multiple stacking plates stacked one on top of the other such that a first fluid duct for a first fluid and a second fluid duct for a second fluid are formed between the stacking plates. A first inlet and outlet opening for conducting in and discharging the first fluid, and a second inlet and outlet opening for conducting in and discharging the second fluid is provided. The first inlet or outlet opening is formed by an immersion pipe and the first fluid can be conducted into the first fluid duct through the immersion pipe, such that the first inlet and outlet openings are formed on the same side of the heat exchanger. | 01-16-2014 |
20140205881 | HEAT TRANSFER DEVICE - A heat transfer device for a motor vehicle may include a pump and a heat exchanger. The heat exchanger may have a first inlet and a first outlet for a refrigerant, and a second inlet and a second outlet for a coolant. The pump and the heat exchanger may be mounted to each other forming a common assembly. | 07-24-2014 |
Michael J. Wesner, Washington, MI US
Patent application number | Description | Published |
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20140196379 | SEALING SYSTEM FOR A FRAMELESS DOOR OF A VEHICLE - A sealing system for a vehicle includes a first and second seal. The first seal is attached to a first edge of a first flange of the vehicle. The first seal presents a first outer contact surface that extends in generally parallel relationship to the first edge. The second seal is attached to a second edge of a second flange of the vehicle. The second seal presents a second outer contact surface that extends in generally parallel relationship to the second edge. The first outer contact surface and the second outer contact surface are in sealing contact relationship with the movable pane of glass when the movable pane of glass is in a closed position. The first outer contact surface and the second outer contact surface are not in sealing contact relationship with the movable pane of glass when the movable pane of glass is in an open position. | 07-17-2014 |
Wolfgang Wesner, Wien AT
Patent application number | Description | Published |
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20100170783 | METHOD FOR THE PRODUCTION OF A DIAMOND ELECTRODE, AND DIAMOND ELECTRODE - A method for producing a diamond electrode comprising synthetically produced and electrically conductive (doped) diamond particles, which are embedded into a support layer of electrically non-conductive material. The doped diamond particles are introduced as a single layer between two films that form the support layer, the films then being permanently connected to each other and the diamond particles being exposed on both sides of the support layer. | 07-08-2010 |
20110147203 | DROP-IN CELL FOR ELECTROLYTIC DISINFECTION OF WATER - The invention relates to a drop-in cell for disinfection of water from bathing pools, particularly whirlpools, with an electrolytic cell ( | 06-23-2011 |
20120255876 | METHOD AND DEVICE FOR DETERMINING THE CONCENTRATION OF OXIDIZING AGENT(S) IN AN AQUEOUS SOLUTION - In a method and a device for determining the concentration of one or more oxidizing agents in an aqueous solution flowing in a main stream, a partial flow of the aqueous solution is diverted to a bypass, wherein the difference between the potential of the aqueous solution before and after at least partial and/or selective breakdown of any oxidizing agents is measured. The bypass is for diverting and returning the partial flow of the aqueous solution, and has at least one elimination unit through which the aqueous solution flows for at least partial and/or selective breakdown of the oxidizing agent(s), and two measuring electrodes for determining the difference between the potentials of the aqueous solution before and after it passes through the elimination unit. | 10-11-2012 |
20130001071 | DROP-IN CELL FOR ELECTROLYTIC PURIFICATION OF WATER - A drop-in cell for the electrolytic purification of water, for example bathwater or service water, with an electrolysis cell that can carry a flow of water, is built into an oblong, e.g., cylindrical, electrically insulating sheath or jacket, and has two contact electrodes mutually positioned a distance apart from each other. A float is situated at least at the one end region of the jacket. | 01-03-2013 |
20130112548 | ELECTRODE, USE THEREOF, AND AN ELECTROCHEMICAL CELL - The invention relates to an electrode for an electrochemical cell, which is either a piece of a monocrystal grown from doped titanium dioxide or which contains a multiplicity of monocrystals grown from doped titanium dioxide. | 05-09-2013 |
20130118917 | BATHING WATER, METHOD FOR THE PRODUCTION AND SYSTEM COMPRISING A BATHING OR SWIMMING POOL - The invention relates to bathing water on the basis of tap water, which is suitable for treatment by means of electrolysis. The bathing water contains at least one of the alkali metal ions Na | 05-16-2013 |
20150051135 | FLUID BASED ON WATER WHICH IS ELECTROLYTICALLY TREATED IN AT LEAST ONE ELECTROLYSIS CELL AND USE OF THE SAME AS A CLEANING AND/OR DISINFECTION AGENT - A method for producing a cleaning and/or disinfecting water-based fluid, containing at least one cleaning and/or disinfecting substance with oxidative effect, characterized in that at least one fat-dissolving and/or lime-dissolving substance is added to the water in a dosing of, in total, at least 0.1 g/l of water, at least one salt from the group of citrates, acetates, tartrates or formates is used as lime-dissolving substance, at least one C14-C18 carboxylic acid or a sulfonate or a hydroxide is used as fat-dissolving substance, wherein the water is electrolyzed in an electrolysis cell having at least one diamond electrode. | 02-19-2015 |
Wolfgang Wesner, Wein AT
Patent application number | Description | Published |
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20080251759 | Method For Producing Ionic Liquids, Ionic Solids Or Mixtures Thereof - The invention relates to a method for producing ionic liquids and ionic solids which takes recourse to a novel, especially modular production process. According to the inventive method, those salts from an ionic carbonate, hydrocarbonate or monoalkyl or monoaryl carbonate precursor (cationic synthesis module) are produced that comprise the desired quaternary ammonium, phosphonium, sulfonium or the analogous quaternary heteroaromatic cation. This precursor can be produced and stored efficiently and with a high degree of purity. The actual process for producing the desired ionic compound, which comprises the introduction of the desired anion, is, unlike generic production processes known so far, flexible, fast and generally applicable. In a preferred embodiment, the carbonate, hydrocarbonate or monoalkyl or monoaryl carbonate anion is completely removed in the form of a gaseous carbon dioxide by reaction with any Brønsted acid (anionic synthesis module) and is replaced by the anion that is conjugated to acid. The invention thus allows the production of a plurality of varied ionic liquids and ionic solids on the basis of any industrially producible ionic precursor in a fast and efficient manner (modular production method). In another embodiment, the same ionic carbonate precursors that comprise the desired quaternary ammonium, phosphonium, sulfonium, or analogous quaternary heteroaromatic cation are reacted with suitable metal salts (e.g. calcium, strontium, barium, zinc or manganese salts), whereby the carbonate anion of the precursor interacts with the metal cation to give a poorly soluble carbonate (e.g. calcium, strontium, barium, zinc or manganese carbonate) which is then precipitated. The carbonate of the ionic precursor is replaced (metathesis reaction) by the anion of the added suitable metal salt (anionic synthesis module) and the desired ionic compound can be isolated by filtration once the poorly soluble carbonates are removed. | 10-16-2008 |