Abstract: The invention relates to an adapter for mounting a conductive pipette, a sample tube opening/closing device, and an automatic sample analysis system and, more specifically, to an adapter for mounting a conductive pipette, a sample tube opening/closing device, and an automatic sample analysis system, in which dispensing of a liquid sample and extraction, amplification and testing of nucleic acids are integrally carried out. The sample tube opening/closing device includes: a housing that forms an inner space isolated from the outside and includes a door for carrying in/out a multi-well plate for biological samples, including a plurality of sample tubes in which biological samples are accommodated; and a sample tube opening/closing part that is installed in the inner space to be spaced apart from the multi-well plate for biological samples and automatically opens and closes the sample tubes.

Abstract: The present invention relates to a nucleic acid amplification test apparatus, and an automatic sample analysis system having same and, more particularly, to a nucleic acid amplification test apparatus in which separation and purification, dispensation, amplification, and testing of samples are performed integrally, and an automatic sample analysis system having same.

Abstract: Provided is a method of generating a book database for reading evaluation of a user, a method of determining a type of a user utterance using a book database, and a method of generating a conversation sentence using a book database, the method of generating a book database for reading evaluation of a user including the steps of: dividing the entire text included in the received book data into units of sentences; assigning the sentences with sentence identifiers (IDs); assigning the words with word IDs; generating and storing a table in which the word ID and the sentence ID match with each other, the table referred to as a word-sentence matching table; and calculating a weight of each of the words using the number of the sentences including the word and storing the weights of the respective words.

Abstract: Disclosed is real-time monitoring apparatus comprising a thermal cycling reaction block having heating block which is formed of a hollow part and divided by an insulating layer, and a capillary tube through which a sample is flowed in and/or out and which is wound on the heating block so that the different temperatures are transferred and thus reaction cycle is repeatedly performed; a light source; a band pass filter; a condensing lens; a beam splitter; a reflecting mirror which is rotatably connected with a motor so as to transfer the excitation light reflected from the beam splitter to the capillary tube and reflect the fluorescence generated from the sample in the capillary tube; and a fluorescence detecting part.

Abstract: The present invention relates to a real-time PCR monitoring apparatus for real-time monitoring production of reaction product produced during the reaction while performing nucleic acid amplification such as PCR for various kinds of trace samples. Specifically, the present invention relates to an apparatus for real-time monitoring biochemical reaction for efficiently dividing interference between an excitation light and a fluorescence, which includes a polarizer, a polarizing beam splitter, a polarization converter and so on.

Abstract: The present invention relates to a apparatus for quantitative continuous real-time monitoring to monitor a continuous reaction of biochemical reagent and the reaction, such as DNA. More particularly, the present invention is directed to a miniaturized apparatus for real-time monitoring of biochemical reaction, which comprises capillary tubes (100) wherein biochemical reaction mixture flow; a thermal conduction block (120) which is coiled with capillary tube several rounds in order and composed of several blocks for temperature control of which temperatures are different from each other for heating or cooling the biochemical reaction mixture which flow in capillary tube, and a temperature controller which controls the temperature of above temperature control block; a radiation part (130) to radiate the reaction mixture flowing through the capillary tube and a light receiving section (140) which receives and measures the intensity of the fluorescence generated from the capillary tubes.

Abstract: The present invention relates to an apparatus for real-time monitoring chemical reaction between various biomaterials. More particularly, the present invention directed to a real-time monitoring apparatus for biochemical reaction, which comprises parabolic mirror and/or an optical waveguide tube for effective irradiation of light over the whole plate with uniform intensity.

Abstract: Disclosed is real-time monitoring apparatus comprising a thermal cycling reaction block having heating block which is formed of a hollow part and divided by an insulating layer, and a capillary tube through which a sample is flowed in and/or out and which is wound on the heating block so that the different temperatures are transferred and thus reaction cycle is repeatedly performed; a light source; a band pass filter; a condensing lens; a beam splitter; a reflecting mirror which is rotatably connected with a motor so as to transfer the excitation light reflected from the beam splitter to the capillary tube and reflect the fluorescence generated from the sample in the capillary tube; and a fluorescence detecting part.

Abstract: The present invention relates to a real-time PCR monitoring apparatus for real-time monitoring production of reaction product produced during the reaction while performing nucleic acid amplification such as PCR for various kinds of trace samples. Specifically, the present invention relates to an apparatus for real-time monitoring biochemical reaction for efficiently dividing interference between an excitation light and a fluorescence, which includes a polarizer, a polarizing beam splitter, a polarization converter and so on.

Abstract: The present invention relates to a apparatus for quantitative continuous real-time monitoring to monitor a continuous reaction of biochemical reagent and the reaction, such as DNA. More particularly, the present invention is directed to a miniaturized apparatus for real-time monitoring of biochemical reaction, which comprises capillary tubes (100) wherein biochemical reaction mixture flow; a thermal conduction block (120) which is coiled with capillary tube several rounds in order and composed of several blocks for temperature control of which temperatures are different from each other for heating or cooling the biochemical reaction mixture which flow in capillary tube, and a temperature controller which controls the temperature of above temperature control block; a radiation part (130) to radiate the reaction mixture flowing through the capillary tube and a light receiving section (140) which receives and measures the intensity of the fluorescence generated from the capillary tubes.

Abstract: The present invention relates to an apparatus for real-time monitoring chemical reaction between various biomaterials. More particularly, the present invention directed to a real-time monitoring apparatus for biochemical reaction, which comprises parabolic mirror and/or an optical waveguide tube for effective irradiation of light over the whole plate with uniform intensity.

Abstract: The present invention relates to an apparatus for automatic measuring of water toxicity. More specifically, the present invention provides an apparatus for automatic and continuous measuring of water toxicity and/or contamination using luminescent microorganisms living in freshwater.

Abstract: The present invention relates to a multi-channel quantitative control valve apparatus which controls transfer of various kinds of solutions, selectively and quantitatively. More particularly, the present invention relates to a multi-channel quantitative control valve apparatus which comprises multichannel membrane valves which control selective transfer of solutions, numerous syringes which imbibe or discharge quantitatively the selected solution, and numerous liquid flow passages.

Abstract: The present invention relates to an apparatus for automatic measuring of water toxicity. More specifically, the present invention provides an apparatus for automatic and continuous measuring of water toxicity and/or contamination using luminescent microorganisms living in freshwater.

Abstract: Digital convergence correction system for correcting misconvergence on a screen of a multi-mode projection television, including a first memory part for storing adjustment point data for every mode of multi-modes, a second memory part for storing convergence correction data in accordance with the adjustment point data, a control part for producing the convergence correction data using the adjustment point data stored in the first memory part for writing the convergence correction data on the second memory part and outputting the convergence correction data stored in the second memory part, and a time sharing processing unit for controlling the control part to share time in producing the convergence correction data and renewing convergence correction data in the second memory part and outputting the convergence correction data stored already in the second memory part for preventing overlap of the producing and storing time and the outputting time.