Patent application number | Description | Published |
20090102417 | Method and Apparatus For Charging Batteries - A method and apparatus for charging batteries includes using an input rectifier to receive an ac input and provide a dc signal. A converter receives the dc signal and provides a converter output. An output circuit receives the converter output and provides a battery charging signal. A controller preferably controls the converter to power factor correct. The system can include multiple output circuits, used either singly or at the same time, and designed for one or more voltages. They can be user removable. Preferably, the converter output has a magnitude independent of a range of frequencies and a range of magnitudes of the ac input, and the range can be, for example, at least a factor of two or at least two utility voltages. The controller includes a charging schedule module that receives feedback, such as voltage and/or current feedback and/or temperature feedback. The output circuit, such as a dc-dc converter, is controlled in response to the feedback in other embodiments. The battery type may be sensed or input by a user, and the charging done in response to the battery type. A defective battery sensor is preferably included, with a user-noticeable indicator. | 04-23-2009 |
20110174791 | HYDRAULICALLY DRIVEN DUAL OPERATOR WELDING SYSTEM AND METHOD - Welding systems including a hydraulically driven welding power supply adapted to utilize hydraulic primary power to generate a first welding output for a first welding operation and a second welding output for a second welding operation are provided. Such welding systems may include control circuitry coupled to the hydraulically driven welding power supply and adapted to enable the hydraulically driven welding power supply to provide the first welding output and the second welding output at the same time to enable a first welding operator and a second welding operator to perform the first welding operation and the second welding operation, respectively, at the same time. | 07-21-2011 |
Patent application number | Description | Published |
20080223830 | SHIELDING GAS CYLINDER HOLDER FOR WELDING-TYPE DEVICES - A welding-type device and gas system for use therewith is disclosed. The welding-type device includes a power supply constructed to generate a welding-type power, a housing enclosing the power source, and a cylinder holder attached to an external surface of the housing. The device further includes a pressure vessel removably secured within the cylinder holder, the pressure vessel constructed to provide a shielding gas to a weld and having a height that is generally less than a height of the housing. | 09-18-2008 |
20100276399 | SPOOL GUN HAVING UNITARY SHIELDING GAS AND WELD POWER CONNECTOR - A spool gun having a quick connector connectable to an electrical power source and a gas source is disclosed. A connection line extends from the spool gun and is attached to a connector. The connector both fluidly connects the spool gun to a shielding gas source and electrically connects the spool gun to a power source constructed to generate a welding-type power. Such a spool gun is quickly and efficiently connectable to the gas and power systems required for performing welding processes. | 11-04-2010 |
20140034627 | WELDING WIRE FEED SYSTEM AND METHOD - In one embodiment, a system is provided with a welding wire feeder that includes a first wheel having a first rotational direction, and a second wheel having a second rotational direction opposite from the first rotational direction. The first and second wheels are disposed compressively about a wire feed region, and the first and second wheels are drivingly coupled together to output substantially equal tangential speeds in the wire feed region. In addition, the first wheel, or the second wheel, or both the first and second wheels comprise a drive wheel directly coupled to a gear without separately coupling both the drive wheel and the gear to a shaft. | 02-06-2014 |
20140061176 | WELDING WIRE FEED SPEED CONTROL SYSTEM AND METHOD - A welding system is disclosed in which the rate of advancement of wire electrode is determined automatically. The device can include a control circuit that determines the rate of advancement of the wire electrode in response to a signal from the voltage selection device of the welding system. Depending upon the operator selected voltage which is selected via the voltage selection device, the control circuit will determine the appropriate rate of wire electrode advancement and control the advancement mechanism (e.g., electric motor) accordingly. Linking of the voltage level and wire-feed speed controls facilities easy of use for more novice operators and, furthermore, facilitates single-handed adjustment of two operational parameters during a welding process. | 03-06-2014 |
20150266126 | WELDING WIRE FEED SYSTEM AND METHOD - In one embodiment, a system is provided with a welding wire feeder that includes a first wheel having a first rotational direction, and a second wheel having a second rotational direction opposite from the first rotational direction. The first and second wheels are disposed compressively about a wire feed region, and the first and second wheels are drivingly coupled together to output substantially equal tangential speeds in the wire feed region. In addition, the first wheel, or the second wheel, or both the first and second wheels comprise a drive wheel directly coupled to a gear without separately coupling both the drive wheel and the gear to a shaft. | 09-24-2015 |
Patent application number | Description | Published |
20120196318 | METHOD AND ASSEMBLY FOR DETERMINING CELL VITALITIES - The method includes binding living cells to magnetic particles, adding them to a sensor array, uniformly distributing over the sensor array, magnetically fixing the magnetic particles having the bound cells over the sensor array, and adding substances to maintain and/or improve the cell vitality to the sensory array, and/or adding substances to worsen the cell vitality to the sensor array. The assembly includes a sensor array composed of sensors, which are designed to be in direct fluidic contact with a fluid, and a device for generating a magnetic field over the sensor array. A layer that comprises magnetic particles and living cells is formed on the sensor array. | 08-02-2012 |
20120252055 | ARRANGEMENT AND METHOD USING MICROSENSORS FOR MEASURING CELL VITALITIES - An arrangement and a method measures cell vitalities with a sensor array. The sensor array is formed on a surface of a semiconductor chip. The semiconductor chip has integrated circuits and an integrated circuit is associated with each sensor of the sensor array, for processing the measurement signals of the respective sensor. The integrated circuits are formed in the semiconductor chip spatially in each case below the associated sensor and neighboring sensors of the sensor array have a centre-to-centre in the range of micrometers. The pH and/or pO | 10-04-2012 |
20140106355 | ARRANGEMENT AND PROCESS FOR OPTICAL ANALYSIS AND SPECIFIC ISOLATION OF BIOLOGICAL SAMPLES - A process is disclosed for detecting cells in a liquid sample, which includes: i) filtration of the liquid sample through a porous membrane which is suitable for retaining detectable cells, where at least one subregion of a support is configured as transparent supporting body and the membrane is arranged over its area on the transparent supporting body in such a way that detectable cells are retained on at least part of the surface of the membrane and that at least part of the sample liquid passes through the membrane, ii) application of a liquid optical medium which has essentially the same refractive index as the supporting body, and iii) optical measurement of at least a subarea of the membrane in order to detect detectable cells. | 04-17-2014 |
20140106388 | AUTOMATED CTC DETECTION - An embodiment relates to a method and to an array for detecting live circulating or disseminated cells in body fluids (for example blood, urine) or tissue samples (for example bone marrow) mixed with liquid. The method includes: a) filtering the liquid sample through a porous membrane that is suitable for retaining cells to be detected, such that cells to be detected come to rest upon at least a part of the surface of the membrane and the sample liquid passes the membrane; b) applying a first process liquid containing a first agent for marking the cells to be detected with a first marker; c) incubating the process liquid on the membrane for a predetermined time period, wherein the cells to be detected are marked; and d) detecting the marked cells to be detected on the surface of the membrane. | 04-17-2014 |
20140110349 | ASSEMBLY AND METHOD FOR FILTRATION - An assembly and a method for filtration are disclosured, which are suitable in particular for the filtration of cells, for example tumor cells, from a sample, for example a blood sample. In the method, a pressure differential between the pressure upstream and the pressure downstream of a filter is determined; and the pressure differential between upstream and downstream of the filter is adjusted such that the pressure differential does not exceed a predetermined value. | 04-24-2014 |