Wuensche
Mathias Wuensche, Panketal DE
Patent application number | Description | Published |
---|---|---|
20110215003 | Method of Inspecting a Metal Coating and a Method for Analytical Control of a Deposition Electrolyte Serving to Deposit Said Metal Coating - For fast and secure determination of the quality of a metal coating as well as of an electrolyte for depositing a metal, in particular for electrolytic deposition of nickel such as of semi-gloss nickel and bright nickel and for analytical control of the deposition electrolyte, a method of inspecting a metal coating is provided, which involves the following method steps: a) depositing the metal coating from a deposition electrolyte onto a working electrode; b) electrolytically dissolving the metal coating through anodic polarisation of the working electrode with respect to a counter electrode, which is in electrolytic contact with the working electrode; c) recording an electrical dissolution potential at the working electrode over time, said potential occurring during a dissolution of the metal coating; and d) determining a time-averaged vale of the dissolution potential. | 09-08-2011 |
Ralph Wuensche, Graz AT
Patent application number | Description | Published |
---|---|---|
20110189526 | ENERGY STORAGE UNIT - An energy storage unit for storing electrical energy comprises a plurality of stacked flat cells, each having protruding electrodes. A cooling body of the energy storage unit is heat-conductively connected, at least in sections, to the flat cells. The cooling body at least partially consists of a plastic material and has openings through which the electrodes extend. | 08-04-2011 |
20110189527 | ENERGY ACCUMULATOR MODULE - An energy storage module having a plurality of stacked flat cells. The energy storage module has an interconnection formed in such a way that the energy storage module can be connected mechanically, electrically and/or for exchanging coolant with at least one other energy storage module of the same kind. | 08-04-2011 |
20120094158 | MODULAR SYSTEM FOR AN ACCUMULATOR - An essentially cuboid-shaped accumulator is provided, comprising at least one voltage generating cell and at least two separate housing elements, each comprising maximally three side parts and together comprising at least four side parts, wherein each side part is provided for limiting one respective side of the cuboid-shaped accumulator. At least two of the housing elements are connected to one another through snap hooks. | 04-19-2012 |
20120094164 | MODULAR SYSTEM FOR AN ACCUMULATOR - A modular system for an essentially cuboid-shaped accumulator is provided, comprising at least one voltage generating cell and at least two loose housing elements. The housing elements each comprise maximally three side parts and together comprise at least four side parts, wherein each side part is provided for limiting one respective side of the cuboid-shaped accumulator. The modular system further comprises at least one additional alternative housing element which can be directly used instead of a housing element fulfilling a first function and which fulfills a second function different from the first function. Furthermore, an accumulator is provided which is built up of the components of said modular system. | 04-19-2012 |
Thomas Wuensche, Muenchen DE
Patent application number | Description | Published |
---|---|---|
20150224962 | Motor Vehicle Having a Lamp in an Antenna Device for Signaling the Operating Condition of a Security System - A motor vehicle having a security system includes a first lamp for indicating the operating state of the security system, and an antenna device which is supported by the body of the motor vehicle and is arranged outside the vehicle body. The first lamp is integrated into the antenna device. | 08-13-2015 |
Thomas J. Wuensche, Granbury, TX US
Patent application number | Description | Published |
---|---|---|
20110146517 | Deflagration to Detonation Transition Device - A detonator assembly is provided. The detonator assembly comprises a deflagration to detonation transition body, a first thermally stable secondary explosive contained by the body, and a bulkhead coupled to the deflagration to detonation transition body. The bulkhead contains pressure within the body associated with firing the detonator assembly at least until a transition from a deflagration operation mode of the detonator assembly to a detonation operation mode of the detonator assembly has occurred. A second thermally stable secondary explosive may alternatively be included in the deflagration to detonation transition body, either separated from the first thermally stable secondary explosive or mixed with the first thermally stable secondary explosive. The detonator assembly comprises effectively no primary explosive. | 06-23-2011 |
20120118191 | Deflagration to Detonation Transition Device - A detonator assembly is provided. The detonator assembly comprises a deflagration to detonation transition body, a first thermally stable secondary explosive contained by the body, and a bulkhead coupled to the deflagration to detonation transition body. The bulkhead contains pressure within the body associated with firing the detonator assembly at least until a transition from a deflagration operation mode of the detonator assembly to a detonation operation mode of the detonator assembly has occurred. A second thermally stable secondary explosive may alternatively be included in the deflagration to detonation transition body, either separated from the first thermally stable secondary explosive or mixed with the first thermally stable secondary explosive. The detonator assembly comprises effectively no primary explosive. | 05-17-2012 |
20120118447 | Deflagration to Detonation Transition Device - A detonator assembly is provided. The detonator assembly comprises a deflagration to detonation transition body, a first thermally stable secondary explosive contained by the body, and a bulkhead coupled to the deflagration to detonation transition body. The bulkhead contains pressure within the body associated with firing the detonator assembly at least until a transition from a deflagration operation mode of the detonator assembly to a detonation operation mode of the detonator assembly has occurred. A second thermally stable secondary explosive may alternatively be included in the deflagration to detonation transition body, either separated from the first thermally stable secondary explosive or mixed with the first thermally stable secondary explosive. The detonator assembly comprises effectively no primary explosive. | 05-17-2012 |
Thomas Jeffrey Wuensche, Granbury, TX US
Patent application number | Description | Published |
---|---|---|
20160003600 | AN INITIATOR HAVING AN EXPLOSIVE SUBSTANCE OF A SECONDARY EXPLOSIVE - An initiator comprises: a first explosive substance, wherein the first explosive substance comprises a secondary explosive, and wherein at least the first explosive substance is capable of being initiated. The initiator comprises effectively no primary explosive. The secondary explosive can be a thermally-stable secondary explosive. A method of using an initiator comprises: initiating the initiator. | 01-07-2016 |
Tilo Wuensche, Dresden DE
Patent application number | Description | Published |
---|---|---|
20120132517 | METHOD FOR COATING A SUBSTRATE IN A VACUUM CHAMBER HAVING A ROTATING MAGNETRON - In a method for coating a substrate in a vacuum chamber having a rotating magnetron, wherein a substrate is guided past the magnetron in a substrate transport direction and is coated by a material, which has been isolated from a target connected to the magnetron, and, optionally with the material reacting with a reactive gas present in the vacuum chamber, homogeneity of the coating layer on a substrate is improved by stabilizing the working point by way of the target rotation. This is achieved in that a periodic change of a first process parameter caused by the target revolution is compensated for by a periodic change of a second process parameter having a determined level and/or by employing two magnetrons having different rotational speeds. | 05-31-2012 |
Torsten Wuensche, Leopoldshoehe DE
Patent application number | Description | Published |
---|---|---|
20100075531 | ELECTRICAL CONNECTOR ARRANGEMENT FOR FLAT CONDUCTORS - A connector arrangement connects the flat conductors that extend upwardly from a horizontal photovoltaic cell panel with the insulated conductors of a cable via the circuits of a printed circuit board, respectively. A flat conductor support member is adhesively secured to the upper surface of the horizontal photovoltaic cell panel and includes upwardly extending bridge portions having flat upper edges about which are reversely bent the upper free ends of the flat conductors. A hollow sectional connector housing includes a lower body section containing a bottom opening that receives the flat conductor support member when the lower body section is seated on the panel upper surface. Bifurcated resilient contacts mounted on the lower section have first portions that engage the bent flat conductor ends, respectively, and second portions that engage the circuits on a replaceable printed circuit board carried by the removable upper cover section of the housing. | 03-25-2010 |
20100267292 | PIN OR SOCKET CONTACT WITH RESILIENT CLIP - An electrical pin or socket terminal includes a vertical tubular body portion, and a spring clip portion connected with the upper end of the body portion. The spring clip portion includes two opposed electrical contacts at least one of which is resiliently biased toward the other. A separating arrangement is operable between a separated condition retaining the contacts in separated spaced relation for longitudinally receiving therebetween a conductor bare end, and a released condition in which the contacts are released for resilient electrical engagement with diametrically opposed surfaces of the conductor bare end. In one embodiment, the spring clip portion includes a pair of parallel spaced struts the upper ends of which are reversely bent toward each other. In another embodiment, a leaf spring electrical contact biases the bare conductor end against a stationary electrical contact. | 10-21-2010 |