Abstract: A light curing apparatus includes a chassis, a carrier, a driving mechanism, and a bottom light curing module. The chassis includes a box and a partition arranged in the box to define a curing space and a receiving space. The carrier is translucent and is arranged in the curing space. The driving mechanism is connected to the carrier to rotate the carrier. The bottom light curing module is arranged in the receiving space and includes a plurality of light curing units. The light curing units of the bottom light curing module are configured to emit a curing light onto at least 80% of the carrier, when the driving mechanism drives the carrier to rotate.
Abstract: A light curing device used to solidify resin with a particular wavelength of beam comprising a shell, a heat sink, a light curing device and an air guide unit. The shell has an air inlet at the extremity and several air outlets around the side wall thereof. The heat sink is inside the shell. The light source device which is disposed inside the shell and at another extremity has at last one light unit closed the heat sink. The air guide unit is disposed inside the air inlet. The light curing device adapts an improved cooling structure to increase cooling efficiency, reduce the noise and vibration, and reduce unit weight.
Abstract: A hand-held apparatus for curing resins includes a housing, a heat sink, a light-emitting unit, a power supply unit and a light transmission unit. The heat sink is installed in the housing. The light-emitting unit is installed on the heat sink. The light-emitting unit has at least one first light-emitting element for generating first wavelength light to cure the resins, at least one second light-emitting element for generating second wavelength light to generate white light, and at least one light-reflecting element surrounding the at least one first light-emitting element and the at least one second light-emitting element for reflecting the first wavelength light and the second wavelength light. The power supply unit provides power for the light-emitting unit. The light transmission unit is coupled to the housing for transmitting the first wavelength light and the second wavelength light to the resins.
Abstract: A medical light solidifying device includes a housing box, a rotary work table, a lighting source reflection body, and an LED lighting source set. The rotary work table is rotatably located in the housing box for being placed with a target material. The lighting source reflection body includes at least two reflection masks. Each mask has a reflection wall surrounding the rotary work table. Each of the reflection walls of the two reflection masks respectively has at least one reflection surface. The LED lighting source set is located above the rotary work table and the lighting source reflection body, and includes a plurality of LED units for emitting a beam with a specific wavelength for solidifying the target material. Thereby, the dead zone of the LED lighting source set is reduced so that the usage efficiency thereof is increase, and furthermore the target material can be efficiently and uniformly solidified.