Abstract: A dynamic balance speaker includes a diaphragm, a voice coil, a printed circuit board, a base frame, a first tuning paper, a washer, a main magnet, and a U-yoke. The base frame is formed with a plurality of spaced first vents and a mounting groove in the middle between adjacent two of the first vents. The mounting groove is provided with positioning grooves. The printed circuit board is provided with positioning portions. The positioning portions are fixed in the positioning grooves, respectively. The voice coil is provided with a pair of lead wires. The lead wires are symmetrical to the center of the printed circuit board. The dynamic balance speaker provides good sound quality.

Abstract: Disclosed is a biofiber dental implant, comprising a fixture having a groove, for osseointegrating into a bone of a jaw or a skull; a peripheral junction having a through hole, connected to the fixture by the groove, for connecting an abutment supporting a dental prosthesis; and a middle member is disposed through the fixture and peripheral junction by the through hole. The fixture, the peripheral junction and middle member are made of multiple biofibers which consist a single bare fiber or a single constructed fiber. The single constructed fiber consists a core and either a single cladding or multiple claddings, and the clad and core are fused together to form the single constructed fiber.

Abstract: A woven fiber optics dental post includes a post body and a woven fiber component. The post body includes a post face, an irradiation receiving portion, and a bottom. The woven fiber component is provided within the post body. The woven fiber component is formed by intertwining a plurality of fiber optics members. A light receiving end portion and a light emitting end portion are respectively composed of a plurality of light receiving ends and light emitting ends of the fiber optics members. The light receiving end portion is appeared on the irradiation receiving portion of the post body for having the woven fiber component receiving a light irradiated at the irradiation receiving portion, and the light emitting end portion is appeared on the post face and/or the bottom of the post body for having the light received by the woven fiber component transmitting to the light emitting end portion to be emitted out of the post face and/or the bottom.

Abstract: A woven fiber optics dental post includes a post body and a woven fiber component. The post body includes a post face, an irradiation receiving portion, and a bottom. The woven fiber component is provided within the post body. The woven fiber component is formed by intertwining a plurality of fiber optics members. A light receiving end portion and a light emitting end portion are respectively composed of a plurality of light receiving ends and light emitting ends of the fiber optics members. The light receiving end portion is appeared on the irradiation receiving portion of the post body for having the woven fiber component receiving a light irradiated at the irradiation receiving portion, and the light emitting end portion is appeared on the post face and/or the bottom of the post body for having the light received by the woven fiber component transmitting to the light emitting end portion to be emitted out of the post face and/or the bottom.

Abstract: The present invention provides a bone connection material that includes an internal layer. The internal layer is formed by braiding a plurality of filaments. The internal layer that is formed by braiding filaments is resistant to lateral shearing forces and may provide flexibility so as to achieve wide applications. Further, the present invention overcomes the drawback of the conventionally used metallic materials that are rigid and inelastic and also overcomes the problem of polylactic acid material of being brittle. Thus, the bone formed according to the present invention is close to a natural bone and is more suitable for uses in portions where frequent movements are made and scaffolds of stem cells.

Abstract: Disclosed is a bioglass fiber dental implant with fiber material and structure including a fixture and a peripheral junction. The fixture is arranged for osseointegrating a bone of the jaw or skull. The peripheral junction is connected to the fixture and is arranged for connecting an abutment supporting a dental prosthesis. The fixture and the peripheral junction are constituted of fiber-enhanced resin. The fibers in the fiber-enhanced resin form a woven fiber structure which includes a center fiber shaft provided straightly through the woven fiber structure and includes a plurality of braided fiber shafts interlaced-knitted around the center fiber shaft. Each fiber in the fiber-enhanced resin has one or more layers.

Abstract: The present invention provides a bone connection material that includes an internal layer. The internal layer is formed by braiding a plurality of filaments. The internal layer that is formed by braiding filaments is resistant to lateral shearing forces and may provide flexibility so as to achieve wide applications. Further, the present invention overcomes the drawback of the conventionally used metallic materials that are rigid and inelastic and also overcomes the problem of polylactic acid material of being brittle. Thus, the bone formed according to the present invention is close to a natural bone and is more suitable for uses in portions where frequent movements are made and scaffolds of stem cells.

Abstract: The present invention relates to a light guide tube, which is formed by weaving a plurality of filaments to provide a single-hole or multi-hole tube. Further, the filaments include filaments that are made of at least one light-transmittable material. With the single-hole or multi-hole tube formed by weaving filaments, besides strengthening the capability of enduring sideways stress, a light-emitting unit can be additionally included at a front end of the tube for illumination purposes and formation can be achieved by using various types of filaments to suit practical needs, such as combination with metal wires or electrical signal carrier material for purposes of transmission of electrical power or electronic information, thereby achieving a wider range of applications that the conventional tubes.

Abstract: The present invention provides a bone connection material that includes an internal layer. The internal layer is formed by braiding a plurality of filaments. The internal layer that is formed by braiding filaments is resistant to lateral shearing forces and may provide flexibility so as to achieve wide applications. Further, the present invention overcomes the drawback of the conventionally used metallic materials that are rigid and inelastic and also overcomes the problem of polylactic acid material of being brittle. Thus, the bone formed according to the present invention is close to a natural bone and is more suitable for uses in portions where frequent movements are made and scaffolds of stem cells.

Abstract: The present invention provides a bone connection material that includes an internal layer. The internal layer is formed by braiding a plurality of filaments. The internal layer that is formed by braiding filaments is resistant to lateral shearing forces and may provide flexibility so as to achieve wide applications. Further, the present invention overcomes the drawback of the conventionally used metallic materials that are rigid and inelastic and also overcomes the problem of polylactic acid material of being brittle. Thus, the bone formed according to the present invention is close to a natural bone and is more suitable for uses in portions where frequent movements are made and scaffolds of stem cells.

Abstract: A genetically modified zebrafish embryo, comprising a HBNF cDNA or a NGF cDNA or a GDNF cDNA together with a cDNA encoding green fluorescent protein (GFP) so as to induce neurite outgrowth during said zebrafish embryonic development, and a method of using such genetically modified zebrafish embryo to identify a therapeutic agent are disclosed.

Abstract: A genetically modified zebrafish embryo, comprising a HBNF cDNA or a NGF cDNA or a GDNF cDNA together with a cDNA encoding green fluorescent protein (GFP) so as to induce neurite outgrowth during said zebrafish embryonic development, and a method of using such genetically modified zebrafish embryo to identify a therapeutic agent are disclosed.