초록 ▼

A system and method for simulated device training is disclosed. According to one embodiment of the present invention, the system includes a simulated device having at least one sensor. A controller is provided, and interfaces with the at least one sensor and with a feedback device. In another embodi

A system and method for simulated device training is disclosed. According to one embodiment of the present invention, the system includes a simulated device having at least one sensor. A controller is provided, and interfaces with the at least one sensor and with a feedback device. In another embodiment, the method includes the steps of (1) providing a simulated device having at least one sensor; (2) monitoring the simulated device for the presence of a stimulus; and (3) providing feedback in response to a predetermined stimulus.

대표청구항 ▼

A system and method for simulated device training is disclosed. According to one embodiment of the present invention, the system includes a simulated device having at least one sensor. A controller is provided, and interfaces with the at least one sensor and with a feedback device. In another embodi

A system and method for simulated device training is disclosed. According to one embodiment of the present invention, the system includes a simulated device having at least one sensor. A controller is provided, and interfaces with the at least one sensor and with a feedback device. In another embodiment, the method includes the steps of (1) providing a simulated device having at least one sensor; (2) monitoring the simulated device for the presence of a stimulus; and (3) providing feedback in response to a predetermined stimulus. l.; US-2841806, 19580700, Blasi; US-3195537, 19650700, Blasi; US-3389468, 19680600, Lewis et al., 433/080; US-3418329, 19681200, Robert et al.; US-3977084, 19760800, Sloan; US-4743199, 19880500, Weber et al., 433/216; US-5032178, 19910700, Cornell; US-5076791, 19911200, Madray, Jr.; US-5098303, 19920300, Fischer; US-5128122, 19920700, Cerami et al.; US-5142723, 19920900, Lustig et al., 015/022.1; US-RE34196, 19930300, Munro; US-5234342, 19930800, Fischer; US-5290566, 19940300, Schow et al.; US-5301381, 19940400, Klupt, 015/022.1; US-5376006, 19941200, Fischer; US-5378153, 19950100, Giuliani et al., 433/216; US-5409631, 19950400, Fischer; US-5425953, 19950600, Sintov et al.; US-5500207, 19960300, Goulet; US-5573398, 19961100, Towle et al., 433/080; US-5611687, 19970300, Wagner, 433/080; US-5611690, 19970300, Summers et al.; US-5631000, 19970500, Pellico et al.; US-5645428, 19970700, Yarborough; US-5648064, 19970700, Gaffar et al.; US-5658148, 19970800, Neuberger et al., 433/215; US-5718886, 19980200, Pellico; US-5725843, 19980300, Fischer; US-5746598, 19980500, Fischer; US-5759038, 19980600, Fischer; US-5766011, 19980600, Sibner; US-5766574, 19980600, Christina-Beck et al.; US-5770105, 19980600, Fischer; US-5770182, 19980600, Fischer; US-5779471, 19980700, Tseng et al., 433/080; US-5814304, 19980900, Wong et al.; US-5921251, 19990700, Joshi, 433/216; US-6056548, 20000500, Neuberger et al., 433/216 flow into a combustor located downstream from the burner in the flow direction of the fuel/air mixture. The invention is based on the basic idea of--for the fluid-mechanical stabilization of a premix burner, into which at least one combustion air stream (5) is fed tangentially into a burner chamber (6) and is mixed with an injected gaseous and/or liquid fuel (7;8) while forming a swirl flow (9) oriented coaxially to the burner axis and induces a reverse flow zone (15) at a change in the cross-section on a burner mouth (14), that is used during the operation of the burner to stabilize the flame--increasingly, radially deforming the swirl flow (9) within the burner chamber (6) in the direction of the burner mouth (14) and let it enter the combustor (12) in a non-rotation-symmetrical flow cross-section, whereby this deformation is created by reducing the free flow cross-section (18) of the burner chamber (6). The fuel/air mixture flows into the combustor with a non-rotation-symmetrical flow cross-section.