Abstract: A fluorescent member according to present invention is composed of a sintered body for wavelength conversion containing a matrix containing magnesium oxide and magnesium hydroxide as main components, and phosphor particles dispersed in the matrix. A thermal conductivity of the fluorescent member is preferably 5 W/(m·K) or higher. A fluorescent member having both a satisfactory thermal conductivity and a satisfactory fluorescent property is provided without requiring a high-temperature sintering process (a high-temperature process at a temperature higher than 250° C.). Further, a method for manufacturing such a fluorescent member and a light-emitting apparatus using such a fluorescent member are provided.

Abstract: Provided are a transparent fluorescent sialon ceramic having fluorescence and optical transparency; and a method of producing the same. Such a transparent fluorescent sialon ceramic includes a sialon phosphor which contains a matrix formed of a silicon nitride compound represented by the formula Mx(Si,Al)y(N,O)z (here, M represents at least one selected from the group consisting of Li, alkaline earth metals, and rare earth metals, 0?x/z<3, and 0<y/z<1) and a luminescent center element.

Abstract: Provided are a transparent fluorescent sialon ceramic having fluorescence and optical transparency; and a method of producing the same. Such a transparent fluorescent sialon ceramic includes a sialon phosphor which contains a matrix formed of a silicon nitride compound represented by the formula Mx(Si,Al)y(N,O)z (here, M represents at least one selected from the group consisting of Li, alkaline earth metals, and rare earth metals, 0?x/z<3, and 0<y/z<1) and a luminescent center element.

Abstract: A nitride phosphor particle dispersion-type sialon ceramic of the present invention includes a matrix formed of a sialon-based compound; and at least one nitride phosphor which is dispersed in the matrix and contains a luminescence center element.

Abstract: A nitride phosphor particle dispersion-type sialon ceramic of the present invention includes a matrix formed of a sialon-based compound; and at least one nitride phosphor which is dispersed in the matrix and contains a luminescence center element.

Abstract: A production process for a crystal oriented ceramics includes: a first step of preparing composite particles formed of particles having magnetic anisotropy having magnetic susceptibility anisotropy and seed particles having magnetic susceptibility anisotropy less than or equal to 1/10 of the magnetic susceptibility anisotropy of the particles having magnetic anisotropy and are formed of an inorganic compound having an anisotropic shape in which a crystal axis intended to be corresponds to a minor axis or a major axis; a second step of adding raw material powder including the composite particles to a solvent to prepare a slurry a third step of preparing a green compact by disposing the slurry in a static magnetic field of ?0.1 tesla and drying the slurry in a state in which crystal axes of the seed particles in a major axis direction are in one direction; and a fourth step of sintering the green compact.

Abstract: A production process for a crystal oriented ceramics includes: a first step of preparing composite particles formed of particles having magnetic anisotropy having magnetic susceptibility anisotropy and seed particles having magnetic susceptibility anisotropy less than or equal to 1/10 of the magnetic susceptibility anisotropy of the particles having magnetic anisotropy and are formed of an inorganic compound having an anisotropic shape in which a crystal axis intended to be corresponds to a minor axis or a major axis; a second step of adding raw material powder including the composite particles to a solvent to prepare a slurry a third step of preparing a green compact by disposing the slurry in a static magnetic field of >0.1 tesla and drying the slurry in a state in which crystal axes of the seed particles in a major axis direction are in one direction; and a fourth step of sintering the green compact.

Abstract: Provided are a transparent fluorescent sialon ceramic having fluorescence and optical transparency; and a method of producing the same. Such a transparent fluorescent sialon ceramic includes a sialon phosphor which contains a matrix formed of a silicon nitride compound represented by the formula Mx(Si,Ai)y(N,O)z (here, M represents at least one selected from the group consisting of Li, alkaline earth metals, and rare earth metals, 0?x/z<3, and 0<y/z<1) and a luminescent center element.

Abstract: A cooling arrangement for uniformly cooling an entirety of a die-casting metal mold is provided. Cooling oil is supplied from temperature controllers (9, 10) by pumps to respective coolant passages (A,B,C,D,E,F,G) through coolant supply circuits (5,6) and through manifolds (5B,6B) where the coolant is branched for cooling a predetermined portion of the metal mold (2). Then, the cooling oil discharged from the respective coolant passages (A,B,C,D,E,F,G) are returned to the temperature controllers (9,10) through coolant discharge passages (7,8) and is cooled by cooling device (11, 12). The cooled cooling oil is again supplied to the coolant supply circuits (5,6). The coolant passages (A through G) are grouped into two groups, and the temperature controllers and the coolant circulation circuits are also grouped into each group to perform coolant supply control and temperature control independently of each group.

Abstract: A cooling arrangement for uniformly cooling an entirety of a die-casting metal mold is provided. Cooling oil is supplied from temperature controllers (9, 10) by pumps (not shown) to respective coolant passages (A,B,C,D,E,F,G) through coolant supply circuits (5,6) and through manifolds (5B,6B) where the coolant is branched for cooling a predetermined portion of the metal mold (2). Then, the cooling oil discharged from the respective coolant passages (A,B,C,D,E,F,G) are returned to the temperature controllers (9,10) through coolant discharge passages (7,8) and is cooled by cooling device (11, 12). The cooled cooling oil is again supplied to the coolant supply circuits (5,6). The coolant passages (A through G) are grouped into two groups, and the temperature controllers and the coolant circulation circuits are also grouped into each group to perform coolant supply control and temperature control independently of each group.

Abstract: A device for determining the measurement zone of an object which permits the adjustable setting of a plurality of measurement zones bounded by user-defined division points comprises a distance measurement apparatus for measuring a distance to an object, a specific division point setting circuit, such as a digital switch, for adjustably setting a specific distance point within the effective measurement range of the distance measurement apparatus, a circuit for adjustably setting one or more predetermined division points on at least one of the near side and the far side of the specific distance point, such that the specific distance point and the at least one predetermined division point define a plurality of measurement zones within the effective measurement range of the distance measurement apparatus, and a judgment circuit for judging which of the plurality of measurement zones a distance measurement result of the distance measurement apparatus belongs to.

Abstract: A distance measurement device comprises at least one switch for generating a start signal, a distance measurement device for measuring the distance to an object in response to the start signal, a memory device for storing distance data measured by the distance measurement device, the stored data defining a plurality of measurement zones within the full range of distance measurement of the distance measurement device, and a judgement circuit for judging which measurement zone the result of the distance measurement performed by the distance measurement means belongs to from the plurality of measurement zones defined by the distance data stored in the memory device. In accordance with this configuration, division points can be set if an object is placed at an actual division point desired and a switch is pressed. Accordingly, when an operator sets the division point, it is unnecessary to depend on memory, perception, or calculation, and the setting of the division points becomes easier.

Abstract: A distance measurement device includes a distance measurement device for measuring a distance to an object, a processor for determining which respective measurement zone a measurement result of the distance measurement device is in, from a plurality of measurement zones within a range of distance measurement of the distance measurement device; and a plurality of output terminals for outputting, based on the determination by the processor, a predetermined output signal corresponding to the respective measurement zones. The output terminals output a signal which is not representative of any respective measurement zone for a predetermined period of time at the time of the end of a distance measurement operation.

Abstract: A distance measurement device comprises distance measurement device for measuring a distance to an object, a processor for judging a result of the distance measurement of the distance measurement device, a first digital switch connected to the processor for setting a first division point where a measurement range of the distance measurement means is divided into a first long distance side and a first short distance side, a second digital switch for setting a second division point where a range between the first division point and the first short distance side is further divided into a second long distance side and a second short distance side. Based on the set states of the first and second digital switches, the processor determines which area the measurement result of the distance measurement device belongs to, from the plurality of distance areas into which the measurement result of the distance measurement device is divided with the first division point and the second division point.

Abstract: A photographic copier includes a rod lens array held to a carrier and moved parallel to an original picture by a motor. Limit switches sense whether the array is in either stop position at both ends of the range of movement During movement, if the array is found to reach either stop position, then a control circuit stops the operation of the motor. When the rod lens array is started, if the limit switches sense that the rod lens array is not in either stop position, then the control circuit operates the motor to return the array to either stop position.