Patent application number | Description | Published |
20120055021 | INKJET HEAD MANUFACTURING METHOD - An inkjet head manufacturing method includes the following steps. Firstly, a multilayered structure with a plurality of microstructure layers is provided. The alignment check holes of the microstructure layers are concentric and have different diameters. Then, the microstructure layers are stacked together and the microstructure layers are aligned with each other according to the concentric and different-diameter alignment check holes, wherein a dry film layer is sandwiched between every two adjacent microstructure layers. The preset slots of the microstructure layers are collectively defined as inlet flow channels, ink chambers, pressure cavities and outlet flow channels. Then, the multilayered structure is assembled and positioned through the dry film layers by a thermal compression process. Then, a cutting knife is used to linearly cut the actuator plate over a spacer between every two adjacent pressure cavities and along a path parallel with rims of the pressure cavities. | 03-08-2012 |
20150050377 | BIOMEDICAL 3D RAPID PROTOTYPING APPARATUS - A biomedical 3D rapid prototyping apparatus includes at least one bio-cartridge, a supply container, a construction platform, an identifying and monitoring device, a disinfection and temperature/humidity regulation device, a casing, and a negative pressure device. The bio-cartridge contains a bio-forming fluid, and has a printhead for ejecting the bio-forming fluid. The supply container stores a bio-building material. The bio-building material is spread in a construction chamber of the construction platform to form a construction layer, and the bio-cartridge is moved to the construction layer to print the bio-forming fluid on the construction layer, so that a cellular tissue is formed. The procedure of spreading the bio-building material and the procedure of printing the bio-forming fluid are repeatedly done, so that a transplantable living tissue or organ is quickly produced. | 02-19-2015 |
20150079213 | RAPID PROTOTYPING APPARATUS WITH PAGE-WIDTH ARRAY PRINTING MODULE - A rapid prototyping apparatus includes a construction platform, a movable platform, and a page-width array printing module. The construction platform includes a construction chamber. The movable platform and the construction platform are movable relative to each other. The page-width array printing module includes plural inkjet head structures. The printing platform and the movable platform are synchronously moved along a single direction in a reciprocating motion. The plural inkjet head structures are collaboratively defined as at least one page-width array printing unit. The plural inkjet head structures include respective inkjet chips. The inkjet chips are arranged in plural rows and in a staggered form, so that a printing width of the inkjet chips is larger than or equal to a width of a printed pattern. Moreover, at least one monochromatic print liquid is introduced into the construction chamber from the plural inkjet head structures. | 03-19-2015 |
20150079214 | PAGE-WIDTH PRINTING PLATFORM OF RAPID PROTOTYPING APPARATUS - A page-width printing platform comprises a plurality of inkjet head structures collaboratively defined as at least one page-width array printing unit. The inkjet head structures comprise respective inkjet chips disposed on the printing platform and arranged in plural rows and in a staggered form, so that a printing width of the inkjet chips is larger than or equal to a width of a printed pattern. Each of the inkjet chips comprises at least one liquid supply slot, wherein a plurality of liquid ejectors are located at one or two sides of the liquid supply slot along a long axis of the liquid supply slot. At least one monochromatic print liquid is introduced into the construction chamber from the plural inkjet head structures and printed on a construction material within the construction chamber, so that a rapid prototyping width-page printing operation is performed. | 03-19-2015 |