Harting
Christoph Harting, Eppstein DE
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20150236379 | ADDITIVES FOR GALVANIC CELLS - Additives for galvanic cells wherein fluorine-free sodium, potassium, cesium, and/or rubidium salts that are soluble in polar organic solvents are used as electrolyte components (additives). | 08-20-2015 |
David Harting, Needham, MA US
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20100132618 | Liquid bird feeder - A liquid bird feed is provided with a liquid container having a sealable top opening and a bottom opening, a liquid tray adapted to immerse the bottom opening in liquid, and a valve mechanism adapted to close the bottom opening to enable the liquid container to be filled through the sealable top opening. | 06-03-2010 |
20100229801 | Liquid bird feeder - A liquid bird feeder provides a liquid container having a bottom opening, a liquid tray adapted to attach to the liquid container and adapted to immerse the bottom opening in liquid. The liquid tray includes a bottom port passing through the liquid tray and vertically aligned with the bottom opening, and a valve mechanism adapted to selectively couple the bottom port of the liquid tray to the bottom opening for filling purposes, or to close the bottom port and couple the bottom opening to the liquid tray for supplying liquid from the liquid container to the liquid tray. | 09-16-2010 |
20110209666 | Liquid bird feeder - A liquid hummingbird feeder is provided with a liquid container having a sealable top opening and a bottom opening, a liquid tray adapted to immerse the bottom opening in liquid, and a valve mechanism adapted to close the bottom opening to enable the liquid container to be filled through the sealable top opening. | 09-01-2011 |
20120152174 | LIQUID BIRD FEEDER - A liquid hummingbird feeder is provided with a liquid container having a sealable top opening and a bottom opening, a liquid tray adapted to immerse the bottom opening in liquid, and a valve mechanism adapted to close the bottom opening to enable the liquid container to be filled through the sealable top opening. | 06-21-2012 |
20140326190 | LIQUID BIRD FEEDER - A liquid hummingbird feeder is provided with a liquid container having a sealable top opening and a bottom opening, a liquid tray adapted to immerse the bottom opening in liquid, and a valve mechanism adapted to close the bottom opening to enable the liquid container to be filled through the sealable top opening, | 11-06-2014 |
David G. Harting, Needham, MA US
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20090307961 | ANIMAL TRAP HAVING TIMED RELEASE DOOR - An animal trap includes a housing having an opening, a door coupled to the housing, and a latch mechanism. The door is movable between a closed position in which the door obstructs the opening and an open position in which the opening is unobstructed. The latch mechanism is coupled to either the housing or the door and is configured to enable the door to be opened after a period of time has elapsed. | 12-17-2009 |
20110214337 | ANIMAL TRAP HAVING TIMED RELEASE DOOR - An animal trap includes a housing having an opening, a door coupled to the housing, and a latch mechanism. The door is movable between a closed position in which the door obstructs the opening and an open position in which the opening is unobstructed. The latch mechanism is coupled to either the housing or the door and is configured to enable the door to be opened after a period of time has elapsed. | 09-08-2011 |
Eric Kelsey Harting, Rockville, MD US
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20120064603 | SELECTIVE ACCESS TO CRYOPRESERVED SAMPLES - Methods and apparatus for selectively accessing a portion of a sterile cryopreserved sample are disclosed. The apparatus may include a container configured to receive the cryopreserved sample and having a first portion and a second portion, a heat sink chamber surrounding the first portion of the container, and a heat source adjacent to the second portion of the container. The chamber may be configured to maintain a non-accessed portion of the sample in a cryopreserved state. The heat source may be configured to separating an accessed portion of the sample from the non-accessed portion of the sample while maintaining the viability of the accessed portion while the non-accessed portion is maintained in the cryopreserved state. | 03-15-2012 |
20140290183 | SELECTIVE ACCESS TO CRYOPRESERVED SAMPLES - Methods and apparatus for selectively accessing a portion of a sterile cryopreserved sample are disclosed. The apparatus may include a container configured to receive the cryopreserved sample and having a first portion and a second portion, a heat sink chamber surrounding the first portion of the container, and a heat source adjacent to the second portion of the container. The chamber may be configured to maintain a non-accessed portion of the sample in a cryopreserved state. The heat source may be configured to separating an accessed portion of the sample from the non-accessed portion of the sample while maintaining the viability of the accessed portion while the non-accessed portion is maintained in the cryopreserved state. | 10-02-2014 |
Hendrick Harting, Hameln DE
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20080289900 | Noise Damper for a Compressed Air Device - A noise damper for a compressed air device includes a tubular housing part provided with an air inlet and an inserted insulating material, in particular, an inserted knitted fabric roll. The air inlet is embodied in the envelope of the tubular housing part such that the supplied air tangentially flows through the insulating material or the knitted fabric roll, is radially deviated inside the tubular housing part, and axially flows out from at least one end of the tubular housing part. | 11-27-2008 |
Hendrik Harting, Hameln DE
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20110168481 | Sound Damper for Compressed Air Systems of Vehicles - The invention relates to a sound damper for compressed air systems of vehicles. Said sound damper comprises a housing ( | 07-14-2011 |
John Lynn Harting, San Jose, CA US
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20140301033 | STORAGE CARTRIDGE FOR USE IN STORAGE DOCK SYSTEM - A storage cartridge and method are provided. The storage cartridge in one example includes a cartridge body including an insertion face configured to be inserted into a cartridge slot of the storage cartridge dock system, with at least one storage medium positioned within the cartridge body and configured to store digital data, a first connector portion of a first interface technology formed in the insertion face, wherein the first connector portion can be coupled to a corresponding interface connector in a cartridge slot of the storage cartridge dock system, and at least a second connector portion of a second interface technology formed in the insertion face, wherein the at least second connector portion can be coupled to an interface cable when the storage cartridge is not inserted in the storage cartridge dock system. | 10-09-2014 |
20140301034 | STORAGE CARTRIDGE DOCK SYSTEM - A storage cartridge dock system and method are provided. The storage cartridge dock system in one example includes a case including a front panel, an upper cartridge slot formed in the front panel of the case and configured to receive an upper storage cartridge, with the upper cartridge slot including an upper interface connector, at least a lower cartridge slot formed in the front panel and configured to receive a lower storage cartridge, with the at least lower cartridge slot including a lower interface connector, and a first external connector and a second external connector coupled to the upper interface connector of the upper cartridge slot and coupled to the lower interface connector of the at least lower cartridge slot. | 10-09-2014 |
Margit Harting, Mowbray ZA
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20090004832 | Thick Film Semiconducting Inks - A method of producing a printable composition comprises mixing a quantity of particulate semiconductor material with a quantity of a binder. The semiconductor material is typically nanoparticulate silicon with a particle size in the range from 5 nanometres to 10 microns. The binder is a self-polymerising material comprising a natural oil, or a derivative or synthetic analogue thereof. Preferably the binder comprises a natural polymer formed by auto-polymerisation of a precursor consisting of a natural oil, or its derivatives including pure unsaturated fatty acids, mono- and di-glycerides, or methyl and ethyl esters of the corresponding fatty acids. The method may include applying the printable composition to a substrate, in single or multiple layers, and allowing the printable composition to cure to define the component or conductor on the substrate. | 01-01-2009 |
20110080452 | Inkjet Printing of Nanoparticulate Functional Inks - Apparatus for depositing ink on a substrate includes a nozzle defining an outlet for the ink, with at least a portion of the nozzle being electrically conductive. A first voltage source applies a first potential to the outlet nozzle. One or more auxiliary electrodes are located adjacent the outlet nozzle, and a second voltage source applies a second potential to the auxiliary electrodes. The apparatus includes a piezo-electric or thermal actuator for expelling ink from the nozzle towards a target zone on a substrate, the ink comprising a liquid vehicle and pigment particles dispersed in the vehicle. At least the pigment particles are electrically charged, typically due to the applied potentials. In one embodiment, an auxiliary electrode is disposed coaxially around the electrode formed by the nozzle. In another embodiment, an auxiliary electrode located beyond the nozzle, on a common axis with the electrode formed by the nozzle. The configuration of the nozzle, the auxiliary electrodes, and the values of the first and second potentials are selected to cause pigment particles to be concentrated in the target zone, so that a quantity of the pigment particles is deposited in the target zone having a higher concentration than the concentration of the pigment particles in the ink. The invention extends to a method of depositing ink on a substrate. | 04-07-2011 |
20120018551 | Method of Producing Stable Oxygen Terminated Semiconducting Nanoparticles - A method is provided of producing inorganic semiconducting nanoparticles having a stable surface. The method comprises providing an inorganic bulk semiconductor material, such as silicon or germanium, and milling the bulk semiconductor material in the presence of a selected reducing agent. The reducing agent acts to chemically reduce oxides of one or more component elements of the semiconductor material, or prevent the formation of such oxides by being preferentially oxidised, thereby to provide semiconducting nanoparticles having a stable surface which allows electrical contact between the nanoparticles. The milling may take place in a mill in which the milling media and/or one or more components of the mill comprise the selected reducing agent. For example, the milling can be carried out in a high energy mill with a hammer action in which a pestle of the mill, a mortar of the mill, or both are composed of the selected reducing agent, or a low energy, stirred media mill, such as a ball mill, a rod mill or similar, in which the milling media, a lining of the mill, or both are composed of the reducing agent. The milling media or mill are typically composed of a metal selected from the group comprising iron, chromium, cobalt, nickel, tin, titanium, tungsten, vanadium, and aluminium, or an alloy containing one or more of said metals. In another embodiment of the method, the selected reducing agent comprises a liquid contained in the mill during milling of the bulk semiconductor material. The liquid is typically an acidic solution containing any of hydrochloric, sulphuric, nitric, acetic, formic, or carbonic acid, or a mixture thereof. The invention extends to a mill for carrying out the method. | 01-26-2012 |
Margit Harting, Cape Town ZA
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20090092855 | Doping of particulate semiconductor materials - The invention relates to a method of doping semiconductor material. Essentially, the method comprises mixing a quantity of particulate semiconductor material with an ionic salt or a preparation of ionic salts. Preferably, the particulate semiconductor material comprises nanoparticles with a size in the range 1 nm to 100 μm. Most preferably, the particle size is in the range from 50 nm to 500 nm. Preferred semiconductor materials are intrinsic and metallurgical grade silicon. The invention extends to a printable composition comprising the doped semiconductor material as well as a binder and a solvent. The invention also extends to a semiconductor device formed from layers of the printable composition having p and n type properties. | 04-09-2009 |
20100148144 | SEMICONDUCTING NANOPARTICLES WITH SURFACE MODIFICATION - The invention relates to semiconducting nanoparticles. The nanoparticles of the invention comprise a single element or a compound of elements in one or more of groups II, III, IV, V, VI. The nanoparticles have a size in the range of 1 nm to 500 nm, and comprise from 0.1 to 20 atomic percent of oxygen or hydrogen. The nanoparticles are typically formed by comminution of bulk high purity silicon. One application of the nanoparticles is in the preparation of inks which can be used to define active layers or structures of semiconductor devices by simple printing methods. | 06-17-2010 |
20130199826 | Assembling and Packaging a Discrete Electronic Component - An electronic component assembly comprises a printed component structure comprising at least one of a semiconducting ink, an insulating ink and a conducting ink deposited onto a substrate. The component structure defining at least one contact area, with a connecting lead disposed against or adjacent to the contact area. At least one layer of electrically insulating material encloses the component structure. At least one of the substrate and the layer of electrically insulating material comprises packaging material. The component structure can be printed on a substrate such as paper or another soft material, which is secured to a layer of insulating packaging material such as polyethylene. Instead, the substrate can be the insulating packaging material itself. Variations using hard and soft substrates are possible, and various examples of electronic component assembly are disclosed. | 08-08-2013 |
20130203201 | Printed Temperature Sensor - A method of producing a temperature sensing device is provided. The method includes forming at least one silicon layer and at least one electrode or contact to define a thermistor structure. At least the silicon layer is formed by printing, and at least one of the silicon layer and the electrode or contact is supported by a substrate during printing thereof. Preferably, the electrodes or contacts are formed by printing, using an ink comprising silicon particles having a size in the range 10 nanometres to 100 micrometres, and a liquid vehicle composed of a binder and a suitable solvent. In some embodiments the substrate is an object the temperature of which is to be measured. Instead, the substrate may be a template, may be sacrificial, or may be a flexible or rigid material. Various device geometries are disclosed. | 08-08-2013 |
20150016487 | Flexible Temperature and Strain Sensors - A strain compensated temperature sensor includes a first, temperature dependent resistor, and a second, substantially temperature independent resistor connected in series with the temperature dependent resistor. At least one electrical contact allows an electrical potential difference to be applied across both resistors simultaneously. Both the temperature dependent resistor and the substantially temperature independent resistor are sensitive to mechanical strain. This permits temperature readings from the sensor to be corrected automatically for mechanical distortion of the sensor. The temperature dependent resistor and the substantially temperature independent resistor are of substantially similar construction, preferably being located adjacent one another in or on a common substrate, and hence have a similar response to a mechanical force applied to them. | 01-15-2015 |
20150023393 | Large Area Temperature Sensor - A sensing device is made up of a network of nominally identical temperature dependent resistors which is topologically equivalent to a square resistor network. The device has terminals at which an average resistance value thereof can be measured. The resistors are supported on a substrate which can be reduced in size from an initial size without substantially changing the average resistance value. In preferred embodiments, a pattern of contacts and conductive tracks joining the contacts are printed on a substrate, and a material having a temperature dependent resistance is applied over the contacts to define a network of interconnected thermistors. Alternatively, the material can be applied to the substrate first and the contacts and tracks printed on it. | 01-22-2015 |
Michael C. Harting, Laport City, IA US
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20080284133 | ADAPTABLE DRAWBAR SUPPORT ASSEMBLY - The invention relates to a drawbar support assembly. There is a need for a drawbar support assembly which can adapt to different types of drawbars. An adaptable drawbar support assembly includes a generally U-shaped front support member for coupling to and supporting the front end of the drawbar. A front spacer member mounts in the front support member above or below the front end of the drawbar. A generally U-shaped rear support member couples to and supports the drawbar. A rear spacer member mounts in the rear support member below the drawbar. The rear spacer member is removable from the rear support member when the front spacer member is mounted above the front end of the drawbar. A ball coupler is attached to the rear end of the drawbar when the front spacer member is mounted above the front end of the drawbar. A clevis coupler is attached to the rear end of the drawbar when the front spacer member is mounted below the front end of the drawbar. | 11-20-2008 |
20100109288 | ADAPTABLE DRAWBAR SUPPORT ASSEMBLY - The invention relates to a drawbar support assembly. There is a need for a drawbar support assembly which can adapt to different types of drawbars. An adaptable drawbar support assembly includes a generally U-shaped front support member for coupling to and supporting the front end of the drawbar. A front spacer member mounts in the front support member above or below the front end of the drawbar. A generally U-shaped rear support member couples to and supports the drawbar. A rear spacer member mounts in the rear support member below the drawbar. The rear spacer member is removable from the rear support member when the front spacer member is mounted above the front end of the drawbar. A ball coupler is attached to the rear end of the drawbar when the front spacer member is mounted above the front end of the drawbar. A clevis coupler is attached to the rear end of the drawbar when the front spacer member is mounted below the front end of the drawbar. | 05-06-2010 |
Michael Carl Harting, Jesup, IA US
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20090058044 | DRAWBAR PIN ADAPTER - The invention relates to a drawbar pin adapter. There is a need for a drawbar pin adapter which can allow a smaller drawbar pin to be used with a larger drawbar. A drawbar pin adapter is provided for a tractor drawbar having a lower strap, an upper strap and a drawbar pin bore which extends through the upper and lower straps and which receives a drawbar pin. The adapter includes a cylindrical bushing mountable in the drawbar pin bore in the lower strap and a hollow housing which is mountable over the lower strap. The housing includes a lower plate, an upper plate and left and right side plates. The upper plate has an upper bore formed therein, and the lower plate has a lower bore formed therein. The upper and lower bores have a diameter which is smaller than an outer diameter of the bushing so that the upper and lower plates hold the bushing within the drawbar pin bore in the lower strap. The bushing and the upper and lower bores receive the drawbar pin when it is inserted through the upper and lower straps. A retainer retains the housing to the drawbar when the drawbar pin is removed from the drawbar pin bore. The retainer includes a cable coupled to the housing and looped around a portion of the drawbar. | 03-05-2009 |
Thomas E. Harting, Fort Wayne, IN US
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20120326465 | SUNSHADE ASSEMBLY WITH LIGHT - A sunshade assembly for illuminating an underhood area of a vehicle having an electrical system includes an outer wall forming a sun-blocking surface. The outer wall is mounted to the vehicle. At least one work light is mounted to the outer wall. The at least one work light is constructed and positioned such that the light emitted from the at least one work light is directed at the underhood area to illuminate the underhood area. | 12-27-2012 |
20120327672 | MIRROR ASSEMBLY - A mirror assembly for illuminating an underhood area of a vehicle having an electrical system includes a mirror head outer shell defining a light reception opening. At least one work light is mounted to the mirror head outer shell within the light reception opening. The work light is constructed and positioned such that the light emitted from the work light is directed at the underhood area of the vehicle to illuminate the underhood area. | 12-27-2012 |