Abstract: A processing apparatus includes a holding table and a processing unit. The processing unit includes a spindle unit having a spindle and a housing in which the spindle is rotatably supported. The processing unit is connected to a spindle temperature adjusting unit for adjusting the temperature of the spindle unit to a predetermined temperature. The spindle temperature adjusting unit includes a circulation route through which a cooling liquid to be introduced into the housing circulates and a heat exchanger connected to the circulation route. The heat exchanger is supplied with a processing liquid, to lower the temperature of the cooling liquid flowing in the circulation route with the processing liquid and increase the temperature of the processing liquid with the cooling liquid.

Abstract: A sludge drying apparatus includes a waste fluid bath for storing a waste fluid containing a sludge, an extracting unit for extracting the sludge from the waste fluid stored in the waste fluid bath, a transfer belt for transferring the sludge extracted by the extracting unit, a drying unit for drying the sludge to be transferred by the transfer belt, and a recovering unit for recovering the sludge transferred by the transfer belt and dried by the drying unit. The recovering unit includes a roll brush provided adjacent to the air outlet so as to horizontally extend in the direction perpendicular to the direction of extension of the transfer belt, and a recovery box for recovering the sludge separated from the transfer belt by the roll brush.

Abstract: A dust collecting treatment apparatus is connected to a dry type polishing apparatus, sucks dust-containing air from the dry type polishing apparatus, and separates the dust and the air from each other. The apparatus includes a cylindrical main body connected to the dry type polishing apparatus; a suction box disposed on an upper plate of the cylindrical main body, a suction source connected to the suction box through a ventilating duct, a filter unit that includes a flange section supported on the upper plate of the cylindrical main body, a pipe formed integrally with the flange section and formed of a plurality of minute holes, and a filter formed of a water-soluble material and externally fitted to the pipe in a detachable manner. The filter is disposed inside the cylindrical main body. A water jet nozzle is disposed inside the suction box and jets water into the filter unit.

Abstract: The present invention relates to coating glass for architectural or automotive use, either monolithic or laminated, having solar control properties. The coating consists of several layers of different metal oxide semiconductors (TiO2, ZnO, ZrO2, SnO2, Al2O3) and a layer of metallic nanoparticles, which when superimposed on a pre-established order give the glass solar control properties. In particular the use of protective layers of n-type semiconductors around the metallic nanoparticles layer. It also relates to the method for obtaining the coating by means of the aerosol-assisted chemical vapor deposition technique, using precursor solutions containing an organic or inorganic salt (acetates, acetylacetonates, halides, nitrates) of the applicable elements and an appropriate solvent (water, alcohol, acetone, acetylacetone, etc.). The synthesis is performed at a temperature between 100 and 600° C. depending on the material to be deposited.

Abstract: A fixed temperature liquid supply apparatus for supplying liquid adjusted in temperature to a processing apparatus including a processing unit includes a tank that accommodates the liquid, a thermometer that measures the temperature of the liquid accommodated in the tank, and a compressed gas supply pipe one end of which is connected to a compressed gas source reserving a compressed gas, the other end of which reaches the tank, and which supplies the compressed gas from the compressed gas source to the tank. The liquid accommodated in the tank is cooled by bubbles of the compressed gas, and the cooled liquid is supplied to the processing apparatus.

Abstract: The present invention relates to coating glass for architectural or automotive use, either monolithic or laminated, having solar control properties. The coating consists of several layers of different metal oxide semiconductors (TiO2, ZnO, ZrO2, SnO2, AlOx) and a layer of metallic nanoparticles, which when superimposed on a pre-established order give the glass solar control properties. In particular the use of protective layers of n-type semiconductors around the metallic nanoparticles layer. It also relates to the method for obtaining the coating by means of the aerosol-assisted chemical vapor deposition technique, using precursor solutions containing an organic or inorganic salt (acetates, acetylacetonates, halides, nitrates) of the applicable elements and an appropriate solvent (water, alcohol, acetone, acetylacetone, etc.). The synthesis is performed at a temperature between 100 and 600° C. depending on the material to be deposited.

Abstract: A flocculant for treating a processing waste liquid is provided, in which processing debris generated by processing are mixed in pure water supplied at a time of processing by a processing apparatus, into fresh water, and the flocculant is formed by pulverizing an ion exchange resin for purifying fresh water into pure water to a size of 100 ?m or below.

Abstract: A pure water production system includes a filter unit, a clear water storage tank, an ultraviolet light irradiation unit, and an ion exchange resin unit. The filter unit filters water. The clear water storage tank stores water filtered by the filtration unit. The ultraviolet light irradiation unit irradiates ultraviolet light to water delivered from the clear water storage tank. The ion exchange resin unit produces pure water from water delivered from the ultraviolet light irradiation unit. The ultraviolet light irradiation unit includes an ultraviolet fluorescent lamp, and an outer tube configured to allow the water to flow through surroundings of the ultraviolet fluorescent lamp. The outer tube includes an inflow port through which the water flows in, and an outflow port through which the water irradiated with ultraviolet light from the ultraviolet fluorescent lamp flows out.

Abstract: A flocculant for treating a processing waste liquid into fresh water being formed by pulverizing an ion exchange resin for purification of fresh water into pure water to a size of 100 ?m or below. With the ion exchange resin pulverized and used as a flocculant, it is ensured that even when the processing waste liquid is subjected to flocculation and separation, the fresh water separated from the processing debris does not show an increased electric conductivity, and worsening of water quality can be restrained. In addition, since the flocculant is pulverized down to a size of 100 ?m or below, flocculation of the processing debris is promoted.

Abstract: A dust collecting treatment apparatus is connected to a dry type polishing apparatus, sucks dust-containing air from the dry type polishing apparatus, and separates the dust and the air from each other. The apparatus includes a cylindrical main body connected to the dry type polishing apparatus; a suction box disposed on an upper plate of the cylindrical main body, a suction source connected to the suction box through a ventilating duct, a filter unit that includes a flange section supported on the upper plate of the cylindrical main body, a pipe formed integrally with the flange section and formed of a plurality of minute holes, and a filter formed of a water-soluble material and externally fitted to the pipe in a detachable manner. The filter is disposed inside the cylindrical main body. A water jet nozzle is disposed inside the suction box and jets water into the filter unit.

Abstract: Provided is an ultraviolet irradiation device capable of increasing the irradiance at an affected site (target cells) even when ultraviolet light having the same intensity is emitted. This ultraviolet irradiation device is provided with: a device body configured to be capable of emitting ultraviolet light from a light emission unit; an ultraviolet-transparent substrate disposed on the light emission unit; and an elastic member which is disposed on the surface of the substrate facing away from the device body and made of an ultraviolet-transparent material.

Abstract: A sludge drying apparatus includes a waste fluid bath for storing a waste fluid containing a sludge, an extracting unit for extracting the sludge from the waste fluid stored in the waste fluid bath, a transfer belt for transferring the sludge extracted by the extracting unit, a drying unit for drying the sludge to be transferred by the transfer belt, and a recovering unit for recovering the sludge transferred by the transfer belt and dried by the drying unit. The recovering unit includes a roll brush provided adjacent to the air outlet so as to horizontally extend in the direction perpendicular to the direction of extension of the transfer belt, and a recovery box for recovering the sludge separated from the transfer belt by the roll brush.

Abstract: The present invention relates to coating glass for architectural or automotive use, either monolithic or laminated, having solar control properties. The coating consists of several layers of different metal oxide semiconductors (TiO2, ZnO, ZrO2, SnO2, AlOx) and a layer of metallic nanoparticles, which when superimposed on a pre-established order give the glass solar control properties. In particular the use of protective layers of n-type semiconductors around the metallic nanoparticles layer. It also relates to the method for obtaining the coating by means of the aerosol-assisted chemical vapor deposition technique, using precursor solutions containing an organic or inorganic salt (acetates, acetylacetonates, halides, nitrates) of the applicable elements and an appropriate solvent (water, alcohol, acetone, acetylacetone, etc.). The synthesis is performed at a temperature between 100 and 600° C. depending on the material to be deposited.

Abstract: The present invention relates to coating glass for architectural or automotive use, either monolithic or laminated, having solar control properties. The coating consists of several layers of different metal oxide semiconductors (TiO2, ZnO, ZrO2, SnO2, Al2O3) and a layer of metallic nanoparticles, which when superimposed on a pre-established order give the glass solar control properties. In particular the use of protective layers of n-type semiconductors around the metallic nanoparticles layer. It also relates to the method for obtaining the coating by means of the aerosol-assisted chemical vapor deposition technique, using precursor solutions containing an organic or inorganic salt (acetates, acetylacetonates, halides, nitrates) of the applicable elements and an appropriate solvent (water, alcohol, acetone, acetylacetone, etc.). The synthesis is performed at a temperature between 100 and 600° C. depending on the material to be deposited.

Abstract: A flocculant for treating a processing waste liquid into fresh water being formed by pulverizing an ion exchange resin for purification of fresh water into pure water to a size of 100 ?m or below. With the ion exchange resin pulverized and used as a flocculant, it is ensured that even when the processing waste liquid is subjected to flocculation and separation, the fresh water separated from the processing debris does not show an increased electric conductivity, and worsening of water quality can be restrained. In addition, since the flocculant is pulverized down to a size of 100 ?m or below, flocculation of the processing debris is promoted.

Abstract: A process fluid circulation type processing system has a processing apparatus that supplies a process fluid to a workpiece held on a chuck table. A process fluid supplying apparatus adds a surface active agent to pure water to produce the process fluid at a predetermined concentration and then supplies the process fluid to the processing apparatus. A pure water generating apparatus removes processing dust and impurities including the surface active agent from waste fluid discharged from the processing apparatus to thereby generate the pure water and then supplies the pure water to the process fluid supplying apparatus. The process fluid supplying apparatus includes a pure water passage, a pure water flow meter for measuring the flow rate of the pure water, and a surface active agent supplying unit for supplying the surface active agent to the pure water downstream of the pure water flow meter.

Abstract: This invention relates to an aerosol injection nozzle designed with a specific geometry to place materials vertically “upwards”, i.e., in opposite direction to the gravity and its method of use. With the nozzle is possible to deposited coatings, multilayer, composite materials, nanopins, nanorods, nanoclusters, nanoplates, nanowires, nanoparticles, “quantum dots” or semiconductors confined, of different materials, not limited to the examples above: TiO2 oxides, ZnO, ZrO2, SnO2, CuO, NiO, CrOx, AlOx, PbZrTiO3, LiNbO3; noble metal Ag, Au, Pt; polymer PANI, PEDOT. The process can be repeated in successive stages with the same device and with the same method to get one or several coatings or materials in successive stages.

Abstract: The present invention refers to a cylindrical cavity or cap, which prevents the condensation and the crystallization of water vapor or other possible compounds present in the air, around the outlet vent of a container having condensate gas.

Abstract: The present invention relates to coating glass for architectural or automotive use, either monolithic or laminated, having solar control properties. The coating consists of several layers of different metal oxide semiconductors (TiO2, ZnO, ZrO2, SnO2, AlOx) and a layer of metallic nanoparticles, which when superimposed on a pre-established order give the glass solar control properties. In particular the use of protective layers of n-type semiconductors around the metallic nanoparticles layer. It also relates to the method for obtaining the coating by means of the aerosol-assisted chemical vapor deposition technique, using precursor solutions containing an organic or inorganic salt (acetates, acetylacetonates, halides, nitrates) of the applicable elements and an appropriate solvent (water, alcohol, acetone, acetylacetone, etc.). The synthesis is performed at a temperature between 100 and 600° C. depending on the material to be deposited.