| Patent application number | Description | Published |
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| 20090326326 | Endoscope Head Apparatus - The present invention discloses an endoscope head apparatus comprising a head mechanism, an elastic element, a support portion, a first wire, a second wire and a bilaterally flexible body. The elastic element is connected to the head mechanism and has a first accommodating space therein. The support portion is connected to the elastic element and has a second accommodating space therein. The first wire and the second wire are connected to head mechanism. The bilaterally flexible body is located at the first accommodating space, and connected to the head mechanism and the support portion respectively, and has a first bendable surface and a second bendable surface. The bilaterally flexible body can swing toward the first surface or the second surface by pulling the first wire or the second wire. | 12-31-2009 |
| 20100036202 | FOUR-DIRECTIONAL TIP DEFLECTION DEVICE FOR ENDOSCOPE - The present invention discloses a four-directional tip deflection device for endoscope including a tip deflecting mechanism, an elastic element, a support portion, a four-directionally flexible body, and first, second, third and fourth wires. The tip deflecting mechanism includes an endoscope lens, and first, second, third and fourth connecting portions facing the endoscope lens. The elastic element is sheathed to the tip deflecting mechanism. The support portion is sheathed to the elastic element. The four-directionally flexible body disposed in a first accommodating space has an end connected to the tip deflecting mechanism and another end connected to the support portion. The first, second, third and fourth wires are connected to the first, second, third and fourth connecting portions respectively. If the first, second, third or fourth wire is pulled, the four-directionally flexible body will be bent into an angle corresponding with a first, second, third or fourth wire direction respectively. | 02-11-2010 |
| 20100087708 | SEPARABLE-TYPE ENDOSCOPE IMAGING SYSTEM - A separable-type endoscope imaging system includes a first body portion, a flexible hollow detection tube, and a second body portion. The first body portion includes an output terminal and a wireless transmitter unit. The flexible hollow detection tube is located at one end of the first body portion and internally provided with a lens assembly for generating an image signal. The second body portion includes an input terminal, a wireless receiver unit, and a display unit. When the output terminal is electrically connected to the input terminal, the image signal is transmitted via the output terminal and the input terminal to the display unit for displaying. On the other hand, when the output terminal is not electrically connected to the input terminal, the image signal is wirelessly transmitted from the wireless transmitter unit to the wireless receiver unit for displaying on the display unit. | 04-08-2010 |
| 20100201796 | Contact measuring endoscope apparatus - A contact measuring endoscope apparatus includes a case located at a front end of the apparatus to define a accommodating space; a contact probe connected to and projected from an end of the case by a fixed distance; a light emitting element for emitting light; an image pickup lens arranged in the accommodating space for gathering light reflected from an external object to be measured, so as to form an optical image; a light sensor arranged in the accommodating space to locate adjacent to one side of the image pickup lens for converting the optical image into a digital image; and a measuring module. When the contact probe is caused to contact the object to be measured, a fixed distance between the image pickup lens and the object can be maintained and therefore the digital image can be in the fixed scale. | 08-12-2010 |
| 20110015485 | Endoscopic Device and Image Processing Method Thereof - An endoscopic device and its image processing method include a casing, a sensing module for reflecting a light from a target object through a reflecting unit, capturing an optical image, and converting the optical image into an electric signal, a switching unit installed on a side of the casing, an image processing unit installed in the casing and electrically coupled to the switching unit, for encoding the electric signal into an image signal and a display unit installed on another side of the casing. If the switching unit is triggered, the switching unit outputs a switch signal, and the image processing unit mirrors the image signal according to the switch signal to obtain a mirrored image signal, and the display unit receives the mirrored image signal and outputs a mirrored image. If the switching unit is not triggered, the display unit receives the image signal and outputs an image. | 01-20-2011 |
| Patent application number | Description | Published |
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| 20100097803 | Multiple Light Source Surface Packaging Structure - The preferred embodiment the invention proposes pertains to a light source system structure, claimticularly referring to a multiple light-source source packaging structure, which is comprised of a surface wrapped with a multiple number of packagers, and inside the packagers is a placement space, and the surface of the packager is of a smooth surface; a micro-Fresnel lens unit, which is mounted in the placement space, and the micro-Fresnel lens unit is comprised of a multiple number of encircling micro-Fresnel lenses, with a concave slot located at the center of the encircling micro-Fresnel lens unit and a light source mounted beneath the concave slot, where the light created from the light source can be deflected and projected through the micro-Fresnel lens unit, through which to further control the angle of each light beam, together with a circuit control switch linked to the light source to further control the distance of light projection from the multiple number of packagers, enabling the distance of projection to be controlled by the varied micro-Fresnel lens unit within the packager. | 04-22-2010 |
| 20100259937 | Candle Lighting Type Reflective Lampshade - A candle lighting type reflective lampshade comprises a lampshade main body being made with a reverse cone body on the upper half thereof and a cover layer on the inner cone surface thereof, wherein the cone surface forming a pair of symmetrical parabolic curves includes a ring type aperture on the top thereof thereby allowing the underside light source to achieve secondary full reflection; the base of lampshade main body comprises a plurality of inclined surfaces being ringly peripherally installed thereon and being installed with a plurality of lamp source bases below the inclined surfaces, while the light source is effectively controlled by the lamp source base to beam the light on the cone top portion of the reverse cone body so as to fully reflect each light beam and to achieve uniform dispersion of the light source. | 10-14-2010 |
| 20100290232 | Non-axisymmetric Optical Device - The present invention is an optical device that is not axially symmetric; comprising of a lampshade at least; wherein, an optical unit mounted to the transverse of lampshade, an illuminant mounted inside the lampshade where corresponding to the center of inner lateral to the optical unit; meanwhile, the optical unit is geometrically structured in a non-axisummetric configuration while the optical unit is fitted a reflector with plurality of cascades along the ring at the external lateral; thus, a refraction or reflection against the light emitted from the illuminant can be performed when permeating through the optical unit that beams a strip light pattern achievable. | 11-18-2010 |
| 20100290235 | Light Condensing Structure for Illuminating Device - A light condensing structure for illuminating device includes a lamp shade; an optical unit located at an open end of the lamp shade and provided on one of two opposite sides with a plurality of concentric annular light condensing sections, each of which has an upward tapered cross-sectional shape; and a light-emitting element mounted in the lamp shade to face toward the other side of the optical unit. Divergent lights from the light-emitting element can be totally reflected (refracted) by the light condensing sections of the optical unit, so that an increased illuminating brightness can be achieved for the illuminating device. | 11-18-2010 |
