Abstract: An inspection apparatus for a biological sample is herein disclosed, wherein a sample, entering a communicating space via a first opening, is sucked upward to a test area by capillarity and then sucked downward to a second opening by a siphonic action; then the sample becomes still as a result of the communicating tube principle. Hence, the present invention provides sufficient amount of biological sample for the test area and also simplifies the inspection process.

Abstract: An electronic device for biological microscopy includes a display unit and a main body adapted to the display unit, wherein an auto-focus microscope, an inspection area, and a computer are housed within the main body. The inspection area includes a first side and a second side opposite to the first side. The microscope includes an object lens, an eye lens, and an extension lens configured between the object lens and the eye lens. The object lens is configured at the first side of the inspection area, and a lighting component is configured at the second side of the inspection area. A thermostat apparatus is configured on the inspection area. A camera electrically connected to the computer is configured on the eye lens and transmits the captured image to the computer for analysis with a pre-installed software.

Abstract: An optical carriage structure of the inspection apparatus and its inspection method are disclosed herein. A plurality of CCD arrays configured at different heights in the optical carriage are utilized, so as a plurality of individual images can be simultaneously captured in one scanning step to obtain a preferred inspection image for image comparison; therefore, precise inspection can be effectively achieved. Furthermore, those CCD arrays are configured at different heights and have enlarged focusing ranges, and the depth of field is thus enhanced.

Abstract: A touch-screen apparatus provides input commands from touch or moving action of single point touch, multi points touch by a user for implement of image capture. The touch-screen apparatus is coupled with a control interface of image capture via wire or wireless method, which provides the user another selection to operate the process of image capture.