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    • 1. 发明申请
    • AIR CONDITIONING SYSTEM
    • 空调系统
    • WO2006068017A3
    • 2007-01-18
    • PCT/JP2005022967
    • 2005-12-14
    • WETMASTER CO LTDTECHNO RYOWA LTDEBINE TAKESHI
    • EBINE TAKESHI
    • F24F3/14F24F6/00F24F6/08F24F11/02
    • F24F3/153F24F3/14
    • An air conditioning system that can perform stable temperature/humidity control and in which the capacity of a freezing machine and energy consumption can be reduced. A cold water supply line (11) and a return cold-water supply line (12) are connected to a cooling-cum-heating coil (3). A warm water supply line (14) is connected to a heating coil (5). The amount of water supplied from the cold water supply line (11) or the return cold-water supply line (12) to the cooling-cum-heating coil (3) is controlled so that the humidity of air to be treated is a desired set humidity. When the amount of humidification is insufficient, the amount of warm water supplied from the warm water supply line (14) to the heating coil (5) is controlled. Further, the amount of water supplied from the cold water supply line (11) to the cooling-cum-heating coil (3) and the amount of return cold-water supplied from a return cold-water supply line (18) to a reheating coil (6) are controlled so that the temperature of the air to be treated is a desired set temperature. When the amount of reheating heat is insufficient, the amount of warm water supplied from the warm water supply line (16) to a second reheating coil (7) is controlled.
    • 能够进行稳定的温度/湿度控制并且能够降低冷冻机的能力和能量消耗的空调系统。 冷水供给管线(11)和回流冷水供给管线(12)连接到冷却和加热线圈(3)。 暖水供应管线(14)连接到加热线圈(5)。 控制从冷水供给管线(11)或返回冷水供给管线(12)向冷却加热用线圈(3)供给的水量,使得待处理的空气的湿度为期望的 设置湿度。 当加湿量不足时,控制从暖水供给管线(14)向加热线圈(5)供给的温水量。 此外,从冷水供给管线(11)供给到冷却和加热线圈(3)的水量以及从返回冷水供给管线(18)供给到再加热的回流冷水量 控制线圈(6),使待处理的空气的温度为期望的设定温度。 当再加热量不足时,控制从暖水供给管线(16)向第二再加热线圈(7)供给的温水量。
    • 6. 发明授权
    • Ionized air flow discharge type non-dusting ionizer
    • 电离气流放电式除尘电离器
    • US07126807B2
    • 2006-10-24
    • US10479353
    • 2002-05-28
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • H05F3/06H01T23/00H05K9/00
    • H01T23/00
    • The ionizer of the present invention comprises a chamber which has an ionization part that ionizes a portion of an ion carrier gas that is supplied to the interior of this chamber, and a blowing part which feeds the ion carrier gas toward a charged body. The ionization part is constructed from an ionization source which is contained in the chamber, and a control device which is connected with this ionization source via a high-voltage cable. Either the generating part of a soft X-ray generating device, the generating part of a low-energy electron beam generating device or the generating part of an ultraviolet radiation generating device is used as the ionization source. The control device, the connecting part between the control device and the high-voltage cable and the connecting part between the ionization source and the high-voltage cable are formed with an explosion-proof structure.
    • 本发明的电离器包括具有离子化部分的室,该离子化部分离子化供应到该室内的离子载体气体的一部分,以及将离子载气朝向带电体供给的吹送部。 离子化部分由容纳在室中的电离源构成,以及通过高压电缆与该电离源连接的控制装置。 使用软X射线产生装置的产生部分,低能电子束产生装置的产生部分或紫外线辐射发生装置的产生部分作为电离源。 控制装置,控制装置和高压电缆之间的连接部分以及电离源和高压电缆之间的连接部分由防爆结构形成。
    • 7. 发明授权
    • Ionized gas current emission type dust-free ionizer
    • 电离气体发射型无尘电离器
    • US07397647B2
    • 2008-07-08
    • US11507917
    • 2006-08-22
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • H05F3/00
    • H01T23/00
    • The ionizer of the present invention comprises a chamber which has an ionization part that ionizes a portion of an ion carrier gas that is supplied to the interior of this chamber, and a blowing part which feeds the ion carrier gas toward a charged body. The ionization part is constructed from an ionization source which is contained in the chamber, and a control device which is connected with this ionization source via a high-voltage cable. Either the generating part of a soft X-ray generating device, the generating part of a low-energy electron beam generating device or the generating part of an ultraviolet radiation generating device is used as the ionization source. The control device, the connecting part between the control device and the high-voltage cable and the connecting part between the ionization source and the high-voltage cable are formed with an explosion-proof structure.
    • 本发明的电离器包括具有离子化部分的室,该离子化部分离子化供应到该室内的离子载体气体的一部分,以及将离子载气朝向带电体供给的吹送部。 离子化部分由容纳在室中的电离源构成,以及通过高压电缆与该电离源连接的控制装置。 使用软X射线产生装置的产生部分,低能电子束产生装置的产生部分或紫外线辐射产生装置的产生部分作为电离源。 控制装置,控制装置和高压电缆之间的连接部分以及电离源和高压电缆之间的连接部分由防爆结构形成。
    • 9. 发明公开
    • IONIZED AIR FLOW DISCHARGE TYPE NON-DUSTING IONIZER
    • STAUBFREIER IONISIERER DES TYPS MITSTRÖMUNGSENTLADUNGSIONISIERTERLUFT
    • EP1397030A4
    • 2004-09-01
    • EP02730725
    • 2002-05-28
    • TECHNO RYOWA LTDHAMAMATSU PHOTONICS KKHARADA CORP
    • MIZUNO AKIRASUGITA AKIOSUZUKI MASANORISATO TOMOKATSUHINO TOSHIHIKOTOGARI HARUYUKI
    • H01T23/00H05F3/06
    • H01T23/00
    • A non−dusting ionizer, comprising an ionizing part for ionizing a part of the ion carrier gas supplied into a chamber and the chamber having a blowout part for supplying the ion carrier gas to a charged body, the ionizing part further comprising an ionizing source incorporated in the chamber and a controller connected to the ionizing source through a high−tension cable, wherein either of the generating parts of a soft X−ray generator, a low energy electron beam generator, and an ultraviolet ray generator is used as the ionizing source, and the controller, a connection part between the controller and the high−tension cable, and a connection part between the ionizing source and the high−tension cable are formed in explosion−proof structures.
    • 一种无粉尘离子发生器,包括用于离子化供应到腔室中的一部分离子载气的离子化部件,并且所述腔室具有用于将离子载体气体供应到带电体的吹出部件,所述离子化部件还包括并入电离源 在腔室内和通过高压电缆连接到电离源的控制器,其中软X射线发生器的发生部件,低能量电子束发生器和紫外线发生器中的任一个被用作电离源 ,控制器,控制器与高压电缆之间的连接部分以及电离源与高压电缆之间的连接部分形成防爆结构。
    • 10. 发明公开
    • Ionized air flow discharge type non-dusting ionizer
    • Staubfreier Ionisierer des Typs mitströmungsentladungsionisierterLuft
    • EP1947915A2
    • 2008-07-23
    • EP08100581.1
    • 2002-05-28
    • Techno Ryowa Ltd.Hamamatsu Photonics K.K.Harada Corporation
    • Mizuno, AkiraSugita, AkioSuzuki, MasanoriSato, TomokatsuHino, ToshihikoTogari, Haruyuki
    • H05F3/06
    • H01T23/00
    • The ionizer of the present invention comprises a chamber which has an ionization part that ionizes a portion of an ion carrier gas that is supplied to the interior of this chamber, and a blowing part which feeds the ion carrier gas toward a charged body. The ionization part is constructed from an ionization source which is contained in the chamber, and a control device which is connected with this ionization source via a high-voltage cable. Either the generating part of a soft X-ray generating device, the generating part of a low-energy electron beam generating device or the generating part of an ultraviolet radiation generating device is used as the ionization source. The control device, the connecting part between the control device and the high-voltage cable and the connecting part between the ionization source and the high-voltage cable are formed with an explosion-proof structure.
    • 本发明的电离器包括具有离子化部分的室,该离子化部分离子化供应到该室内的离子载体气体的一部分,以及将离子载气朝向带电体供给的吹送部。 电离部分由包含在室中的电离源构成,以及通过高压电缆与该电离源连接的控制装置。 使用软X射线产生装置的产生部分,低能电子束产生装置的产生部分或紫外线发生装置的产生部分作为电离源。 控制装置,控制装置和高压电缆之间的连接部分以及电离源和高压电缆之间的连接部分由防爆结构形成。