Abstract: The present disclosure relates to a coil assembly including: a plurality of unit flat coils disposed and spaced apart from one another in a circumferential direction; and a molding body made by dual injection molding and configured to partially surround the unit flat coils, thereby simplifying a structure of the coil assembly and a process of manufacturing the coil assembly.

Abstract: Provided is a device for manufacturing a stator, the device including a winding jig configured to wind a coil and to manufacture a winding coil, and an insertion jig configured to receive the winding coil from the winding jig and to insert the winding coil into a stator core, wherein the winding jig comprises a body extending along a longitudinal direction (L1), a power supply unit configured to make the body revolve around a central shaft of the body, and a protrusion formed on a surface of the body.

Abstract: A stator assembly of a hairpin winding motor including hairpin coils continuously connected along a circumferential direction to form a coil winding; and a stator core configured to fix the hairpin coils. Outer circumferential surfaces of the hairpin coils formed in the circumferential direction contact an inner circumferential surface of the stator core.

Abstract: Provided is a device for manufacturing a stator, the device including a winding jig configured to wind a coil and to manufacture a winding coil, and an insertion jig configured to receive the winding coil from the winding jig and to insert the winding coil into a stator core, wherein the winding jig comprises a body extending along a longitudinal direction (L1), a power supply unit configured to make the body revolve around a central shaft of the body, and a protrusion formed on a surface of the body.

Abstract: A motor including a wound coil includes: a stator core, a cross-section of which has a ring-shape, extending in a longitudinal direction of the motor, the stator core including a plurality of teeth in the stator core, the plurality of teeth are spaced apart from each other in a circumferential direction of the stator core, and a plurality of slots arranged between the plurality of teeth; a coil extending in a longitudinal direction of the stator core and extends into the plurality of slots; and a coupling core, which includes shoes coupled to inner ends of the plurality of teeth and which is disposed inside the stator core so as to be integrally coupled to the stator core.

Abstract: Provided is a device for manufacturing a stator, the device including a winding jig configured to wind a coil and to manufacture a winding coil, and an insertion jig configured to receive the winding coil from the winding jig and to insert the winding coil into a stator core, wherein the winding jig comprises a body extending along a longitudinal direction (L1), a power supply unit configured to make the body revolve around a central shaft of the body, and a protrusion formed on a surface of the body.

Abstract: The present disclosure relates to a coil assembly including: a plurality of unit flat coils disposed and spaced apart from one another in a circumferential direction; and a molding body made by dual injection molding and configured to partially surround the unit flat coils, thereby simplifying a structure of the coil assembly and a process of manufacturing the coil assembly.

Abstract: A motor including a wound coil includes: a stator core, a cross-section of which has a ring-shape, extending in a longitudinal direction of the motor, the stator core including a plurality of teeth in the stator core, the plurality of teeth are spaced apart from each other in a circumferential direction of the stator core, and a plurality of slots arranged between the plurality of teeth; a coil extending in a longitudinal direction of the stator core and extends into the plurality of slots; and a coupling core, which includes shoes coupled to inner ends of the plurality of teeth and which is disposed inside the stator core so as to be integrally coupled to the stator core.

Abstract: A stator assembly of a hairpin winding motor including hairpin coils continuously connected along a circumferential direction to form a coil winding; and a stator core configured to fix the hairpin coils. Outer circumferential surfaces of the hairpin coils formed in the circumferential direction contact an inner circumferential surface of the stator core.

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: A system, device, and method for rapid detection of analytes that includes a living, engineered biosensor cell that is typically a component of the mammalian immune system; a reporter protein that is engineered into and expressed by the living, engineered biosensor cell, wherein the reporter protein emits a detectable signal in response to certain predetermined changes in the cytosol of the living, engineered cell; a signal transduction pathway expressed by the living, engineered biosensor cell, wherein the signal transduction pathway controls a biological process within the cytosol of the living, engineered biosensor cell, and wherein the biochemical process, when it occurs, causes the reporter protein to emit a detectable signal; at least one type of detector molecule that is adapted to bind to a specific analyte; at least one analyte that binds to the detector molecule that is specific to that analyte; a plurality of non-antibody signal transducing elements that are either expressed by the living, engineer

Abstract: The present invention relates to a stripping tip for orthodontics and a manufacturing method thereof. The stripping tip includes a grinding blade provided with a grinding surface for grinding teeth, a holder comprising a grinding blade coupling portion coupled to the grinding blade and a connection coupling portion connected to the grinding blade coupling portion and coupled to a handle or handpiece, and a stiffness enhancement portion provided to a part of the grinding blade coupling portion coupled to the grinding blade to enhance stiffness of the part of the grinding blade coupling portion coupled to the grinding blade.

Abstract: A system for detecting infectious agents in biological samples in real time that includes a sample to be tested for at least one specific infectious agent; and a biosensor, wherein the biosensor is operative to detect a specific infectious agent in the sample to be tested; and wherein the biosensor emits an amplified and detectable signal when it reacts with the specific infectious agent. Signal detection is enhanced through the release of LPS from the cells of the infectious agent.

Abstract: A system for detecting infectious agents in biological samples in real time that includes a sample to be tested for at least one specific infectious agent; and at least one biosensor, wherein the biosensor is operative to detect a specific infectious agent in the sample to be tested; wherein the biosensor emits a detectable signal when it reacts with the specific infectious agent; wherein the biosensor is a hybridoma cell that naturally expresses an endogenous anti-target antigen specific IgM; and wherein the hybridoma cell has been converted to a B cell receptor biosensor by introducing a detectable reporter gene into the cell.