会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Air conditioning apparatus
    • 空调设备
    • US07836712B2
    • 2010-11-23
    • US11528653
    • 2006-09-28
    • Keiji SasaoTadakatsu Nakajima
    • Keiji SasaoTadakatsu Nakajima
    • F25B49/00
    • F24F11/0008F24F11/30F24F2110/12F24F2110/20
    • An air conditioning apparatus comprises an air-conditioning unit including at least a cooling coil as a heat exchanger, a blower, a chiller, and a coolant pump for conducting air-conditioning, wherein the coolant pump pumps the coolant cooled by the chiller to the cooling coil, the cooling coil cools the air through heat exchange of the coolant and the air, the blower supplies the cooled air into a room. Coolant temperature of the chiller, the coolant flow rate of the coolant pump, and the air flow rate of the blower are calculated in accordance with the set points of the indoor temperature and the indoor humidity, and the chiller, coolant pump, and blower are controlled on the basis of the arithmetic calculation results. Thereby, the indoor temperature and indoor humidity are independently controlled in the central air-conditioning system.
    • 空调装置包括至少包括作为热交换器的冷却盘管,鼓风机,冷却器和用于进行空调的冷却水泵的空调单元,其中,冷却剂泵将由冷却器冷却的冷却剂泵送到 冷却盘管,冷却盘管通过冷却剂和空气的热交换冷却空气,鼓风机将冷却的空气送入房间。 根据室内温度和室内湿度的设定点计算冷却器的冷却液温度,冷却水泵的冷却剂流量和鼓风机的空气流量,制冷机,冷却水泵和鼓风机均为 在算术计算结果的基础上进行控制。 因此,室内温度和室内湿度在中央空调系统中独立控制。
    • 6. 发明授权
    • Air-conditioning controlling system
    • 空调控制系统
    • US06454177B1
    • 2002-09-24
    • US09801700
    • 2001-03-09
    • Keiji SasaoTadakatsu Nakajima
    • Keiji SasaoTadakatsu Nakajima
    • H02J100
    • F24F11/30F24F6/18F24F11/54F24F11/62F24F2130/00F24F2130/10Y02P80/156Y10T307/469
    • An air-conditioning operation management company provides control information concerning air-conditioning equipments to a plurality of semiconductor manufacturing factories. The air-conditioning operation management company stores a measured result of an outside-air condition measuring unit in a past outside-air condition record database and obtains forecasted maximum temperature information on-that day from a weather forecast providing system. An outside-air condition transition forecasting unit forecasts all, transition of the outside-air condition on that day on the basis of the forecasted maximum temperature information. Information stored in an air-conditioning thermal load database, an air-conditioning equipment characteristic database and a set-temperature-and-humidity-of-air-conditioning-equipment database are employed to provide an optimum operation method of the air-conditioning equipments to the semiconductor manufacturing factories. Further, a forecasted result of an outside-air condition transition, an analyzed result of an air-conditioning thermal load and an analyzed result of a controlling method are displayed in customer terminals.
    • 空调运营管理公司向多个半导体制造工厂提供关于空调设备的控制信息。 空调运营管理公司将外部空气状态测量单元的测量结果存储在过去的空中状态记录数据库中,并从天气预报提供系统获得当天预测的最高温度信息。 外部空中转型预测单位根据预测的最高气温信息,预测当天的空中情况全部过渡。 使用存储在空调热负荷数据库中的信息,空调设备特征数据库和空调设备温度设定数据库,以提供空调设备的最佳操作方法 到半导体制造工厂。 此外,在客户终端中显示外部空调状态转换的预测结果,空调热负荷的分析结果和控制方法的分析结果。
    • 8. 发明申请
    • Refrigerant Compressor and Refrigeration Cycle Device
    • 制冷剂和制冷循环装置
    • US20150159649A1
    • 2015-06-11
    • US14402965
    • 2012-05-22
    • Masaki KoyamaKeiji Sasao
    • Masaki KoyamaKeiji Sasao
    • F04C15/00F04C15/06F04C2/02
    • F04C15/0096F04B39/04F04B39/06F04C2/025F04C15/06F04C18/0215F04C18/30F04C23/008F04C29/026F04C29/045F04C29/12
    • A refrigerant compressor (100) includes: a sealed vessel (103); a compression mechanism (101) that sucks refrigerant, sucked in the sealed vessel (103), for compression; a motor (102) that drives the compression mechanism (101); a suction pipe (104) for sucking the refrigerant into the sealed vessel (103) when sucking the refrigerant; a cover (117a) arranged to face an outlet of the suction pipe (104), to force the refrigerant sucked through the suction pipe (104) to collide against the cover for gas-liquid separation, and to allow liquid refrigerant from the separation to drop on a coil (126) of the motor (102); and a suction passage (118) that introduces gas refrigerant from the gas-liquid separation, for which the refrigerant sucked through the suction pipe is forced to collide against the cover (117a), to an inlet of the compression chamber provided in the compression mechanism (101). Thus, a decrease in density of the refrigerant to be compressed, sucked into the sealed vessel (103), can be prevented to prevent a decrease in refrigeration capacity, and the temperature of the motor (102) can be lowered to improve a motor efficiency.
    • 制冷剂压缩机(100)包括:密封容器(103); 吸入被密封容器(103)中的制冷剂压缩的压缩机构(101) 驱动压缩机构(101)的马达(102)。 吸入管(104),用于在吸入制冷剂时将制冷剂吸入密封容器(103); 设置成与吸入管104的出口相对的盖子(117a),以迫使吸入管(104)吸入的制冷剂与用于气液分离的盖碰撞,并使液体制冷剂从分离 落在电动机(102)的线圈(126)上; 以及吸入通道(118),其将来自吸入管吸入的制冷剂的气液分离引入气体制冷剂,该吸入通道被迫与盖体(117a)碰撞到设置在压缩机构中的压缩室的入口 (101)。 因此,可以防止吸入密封容器(103)中被压缩的制冷剂的密度降低,以防止制冷量的降低,并且可以降低电动机(102)的温度以提高电动机效率 。
    • 9. 发明授权
    • Air conditioning equipment operation system and air conditioning equipment designing support system
    • 空调设备运行系统和空调设备设计支撑系统
    • US07225171B2
    • 2007-05-29
    • US10445057
    • 2003-05-27
    • Hiroshige KikuchiTadakatsu NakajimaKeiji Sasao
    • Hiroshige KikuchiTadakatsu NakajimaKeiji Sasao
    • G01R11/56G01M1/38
    • G06Q50/06F24F11/30F24F11/47F24F11/62F24F2130/00F24F2130/10
    • A control server includes a device information database storing device characteristic data constituting the air conditioning equipment, a fuel/power rate database storing price and rate data regarding gas, oil, power and the like, a device characteristic and price database, an air conditioning equipment simulator for calculating running costs by using the data stored in the fuel/power rate database, and communication portion for performing communications through a network. The control server, and an air conditioning management controller for managing and controlling the air conditioning equipment provided with the communication portion for performing communications through the network, are connected to the network. An operation plan is made by the control server, the operation plan is transmitted to the air conditioning equipment management controller for controlling the air conditioning equipment through the network, and the air conditioning equipment is controlled and operated according to the operation plan.
    • 控制服务器包括存储构成空调设备的设备特征数据的设备信息数据库,存储关于气体,油,电力等的价格和费率数据的燃料/电力数据库,设备特性和价格数据库,空调设备 用于通过使用存储在燃料/电力数据库中的数据计算运行成本的模拟器,以及用于通过网络执行通信的通信部分。 控制服务器和用于管理和控制设置有用于通过网络进行通信的通信部分的空调设备的空调管理控制器连接到网络。 操作计划由控制服务器进行,​​运行计划通过网络传送到空调设备管理控制器,用于控制空调设备,空调设备根据运行计划进行控制和运行。
    • 10. 发明申请
    • Air conditioning apparatus
    • 空调设备
    • US20070107450A1
    • 2007-05-17
    • US11528653
    • 2006-09-28
    • Keiji SasaoTadakatsu Nakajima
    • Keiji SasaoTadakatsu Nakajima
    • F25D17/04F25D17/02
    • F24F11/0008F24F11/30F24F2110/12F24F2110/20
    • An air conditioning apparatus comprises an air-conditioning unit including at least a cooling coil as a heat exchanger, a blower, a chiller, and a coolant pump for conducting air-conditioning, wherein the coolant pump pumps the coolant cooled by the chiller to the cooling coil, the cooling coil cools the air through heat exchange of the coolant and the air, the blower supplies the cooled air into a room. Coolant temperature of the chiller, the coolant flow rate of the coolant pump, and the air flow rate of the blower are calculated in accordance with the set points of the indoor temperature and the indoor humidity, and the chiller, coolant pump, and blower are controlled on the basis of the arithmetic calculation results. Thereby, the indoor temperature and indoor humidity are independently controlled in the central air-conditioning system.
    • 空调装置包括至少包括作为热交换器的冷却盘管,鼓风机,冷却器和用于进行空调的冷却水泵的空调单元,其中,冷却剂泵将由冷却器冷却的冷却剂泵送到 冷却盘管,冷却盘管通过冷却剂和空气的热交换冷却空气,鼓风机将冷却的空气送入房间。 根据室内温度和室内湿度的设定点计算冷却器的冷却液温度,冷却水泵的冷却剂流量和鼓风机的空气流量,制冷机,冷却水泵和鼓风机均为 在算术计算结果的基础上进行控制。 因此,室内温度和室内湿度在中央空调系统中独立控制。