Patent application number | Description | Published |
20100032489 | Environmental Testing Apparatus - An environmental test apparatus is disclosed. The environmental test apparatus is configured to simulate the environmental variation in temperature and humidity. The environmental test apparatus comprises a box, a plurality of openings, a plurality of fans and a plurality of controllers. The box has a plurality of side walls, wherein the openings are disposed on at least two side walls of the box, and each of the fans is correspondingly disposed in each of the openings. The controllers are configured to control the rotational speed of each fan and adapted to uniform the distribution of the temperature and the humidity inside the box. | 02-11-2010 |
20100109880 | Posture Sensing Alert Apparatus - A posture sensing alert apparatus is provided. The posture sensing alert apparatus comprises an attachment element, a detecting element, a processing element and an alert element. The attachment element is adapted to attach on a human body. The detecting element is disposed on the attachment element and is adapted to sense a posture change from the human body. The processing element is disposed on the attachment element and connects to the detecting element. The processing element is adapted to output a signal to the alert element in response to the posture change for a predetermined period so that the alert element is adapted to output an alert accordingly. | 05-06-2010 |
20100294019 | Impact Testing Device - An impact testing device is provided. The impact testing device comprises a plate and an impact generating module. The plate has a first surface for loading a test object. The impact generating module is fastened to the plate to apply an impact to the plate and actuate the plate along the first direction, the second direction and the third direction independently. Thereby, the impact testing device of this invention is adapted to apply the impact to the test object along any direction under control. | 11-25-2010 |
20110146377 | Impact Generator and Impact Testing Platform - An impact generator and an impact testing platform using the impact generator are provided. The impact generator has an axial direction, a radial direction and a tangential direction, which are substantially orthogonal to each other. The impact generator comprises a coil and a magnetic device. The coil winds around along the axial direction. The magnetic device is adjacent to the coil and configured to construct a magnetic field so that a plurality of magnetic field lines of the magnetic field all pass through the coil substantially along the radial direction. The current flows along the tangential direction in the coil substantially so that the magnetic device is actuated by a force along the axial direction and generates an impact outwards while a current is conducted into the coil. | 06-23-2011 |
20130000381 | Impact Generating Unit and Impact Generating Assembly Comprising the Same - An impact generating assembly comprises an impact platform and a plurality of impact generating units is provided. Each of the impact generating units comprises a holder portion, a fixture device and an impact generating portion. The holder portion comprises a first inclined plane and a second inclined plane opposite the first inclined plane. The fixture device is disposed on the holder portion. The impact generating portion is disposed on the holder portion for providing a reciprocating motion. Each of the impact generating units is mounted to the impact platform by the fixture device, and the impact generating portion is adapted to produce a synchronous vibration on the impact platform through the impact platform. | 01-03-2013 |
20130014557 | Apparatus and Method for Testing Solar PanelAANM Lee; Kun TaAACI Taipei HsienAACO TWAAGP Lee; Kun Ta Taipei Hsien TW - A testing apparatus for testing a solar panel is provided. The testing apparatus includes at least one sensor, at least one impact hammer and at least one adsorbing element. The testing apparatus adsorbs the solar panel with the at least one adsorbing element and the at least one sensor is disposed on the solar panel. At least one vibration is produced when the at least one impact hammer hits the solar panel. The at least one vibration is received and transformed into at least one digital signal by the at least one sensor. The at least one digital signal is then compared with a database to determine the yield of the solar panel. | 01-17-2013 |
20130025382 | Environmental Testing Apparatus - An environmental test apparatus is disclosed. The environmental test apparatus is configured to simulate the environmental variation in temperature and humidity. The environmental test apparatus comprises a box, a plurality of openings, a plurality of fans, two guiding elements and a plurality of controllers. The box has a plurality of sidewalls and a plurality of corners each being defined by three of the adjacent sidewalls, wherein the openings are disposed on at least two sidewalls of the box, and each of the fans is correspondingly disposed in each of the openings. The two guiding elements are disposed on two opposite corners for guiding the airflow in the hollow box, wherein the two opposite corners share a single sidewall. The controllers are configured to control the rotational speed of each fan and adapted to uniform the distribution of the temperature and the humidity inside the box. | 01-31-2013 |
20130042689 | Sound Wave Testing Device and Method for Testing Solar Panel - A sound wave testing device is provided. The sound wave testing device comprises at least one sound output unit for providing at least one first sound signal, at least one sound-collecting element disposed above the at least one sound output unit, at least one sound-receiving unit disposed at one end of the at least one sound-collecting element, and an isolating element disposed between the at least one sound output unit and the at least one sound-collecting element, in which the solar panel is disposed on the isolating element. The at least one first sound signal is transformed into at least one second sound signal while passing through the solar panel. The at least one second sound signal is received and transmitted to at least one sound-receiving unit, and the at least one second sound signal is transformed into at least one digital signal for output. | 02-21-2013 |