公开(公告)号：WO2011097583A3

公开(公告)日：2011-11-24

申请号：PCT/US2011023932

申请日：2011-02-07

Applicant: JOHNSON CONTROLS TECH CO ,  KOPKO WILLIAM L ,  YANIK MUSTAFA KEMAL ,  BUCKLEY MICHAEL LEE ,  NICKEY GLENN EUGENE ,  CASPER IAN MICHAEL

Inventor： KOPKO WILLIAM L ,  YANIK MUSTAFA KEMAL ,  BUCKLEY MICHAEL LEE ,  NICKEY GLENN EUGENE ,  CASPER IAN MICHAEL

IPC: F24F13/30 ,  F28B1/06 ,  F28D1/04

CPC classification number: F24F13/30 ,  F28B1/06 ,  F28D1/0435

Abstract: A heat exchanger is provided with stacked coil sections. Each of the stacked coil sections is configured to circulate a fluid independent from the other coil section. An air moving device is used to circulate air through both of the stacked coil sections. The stacked coil sections are positioned to have the air exiting the one coil section entering the other coil section.

Abstract translation: 热交换器设有堆叠的线圈段。 每个堆叠的线圈段被构造成使流体与另一个线圈段独立地循环。 空气移动装置用于使空气通过两个堆叠的线圈段。 堆叠的线圈段被定位成具有离开一个线圈段的空气进入另一个线圈段。

公开(公告)号：WO2011097583A2

公开(公告)日：2011-08-11

申请号：PCT/US2011/023932

申请日：2011-02-07

Applicant: JOHNSON CONTROLS TECHNOLOGY COMPANY ,  KOPKO, William L. ,  YANIK, Mustafa Kemal ,  BUCKLEY, Michael Lee ,  NICKEY, Glenn Eugene ,  CASPER, Ian Michael

Inventor： KOPKO, William L. ,  YANIK, Mustafa Kemal ,  BUCKLEY, Michael Lee ,  NICKEY, Glenn Eugene ,  CASPER, Ian Michael

IPC: F24F13/30 ,  F28B1/06 ,  F28D1/04

CPC classification number: F24F13/30 ,  F28B1/06 ,  F28D1/0435

Abstract: A heat exchanger is provided with stacked coil sections. Each of the stacked coil sections is configured to circulate a fluid independent from the other coil section. An air moving device is used to circulate air through both of the stacked coil sections. The stacked coil sections are positioned to have the air exiting the one coil section entering the other coil section.

Abstract translation: 换热器具有堆叠的线圈部分。 每个堆叠的线圈部分构造成使流体独立于另一个线圈部分循环。 空气移动装置用于使空气循环通过两个堆叠的线圈部分。 堆叠的线圈部分定位成使排出一个线圈部分的空气进入另一个线圈部分。

公开(公告)号：WO2005100883A1

公开(公告)日：2005-10-27

申请号：PCT/US2005/012101

申请日：2005-04-11

Applicant: YORK INTERNATIONAL CORPORATION ,  CRANE, Curtis Christian ,  HILL, IV, Frank Highland ,  GRAYBILL, Andrew John ,  CASPER, Ian Michael

Inventor： CRANE, Curtis Christian ,  HILL, IV, Frank Highland ,  GRAYBILL, Andrew John ,  CASPER, Ian Michael

IPC: F25B49/02

CPC classification number: F25B49/02 ,  F25B49/027 ,  F25B2500/12 ,  F25B2600/021 ,  F25B2600/111 ,  F25B2700/171 ,  Y02B30/741 ,  Y02B30/743

Abstract: A noise control method is provided for a cooling system (100) having at least one refrigerant circuit. The refrigerant circuit includes a compressor (108), a condenser (110), at least one condenser fan (112), and an evaporator (114). Noise control is performed in response to requirements for reduced operation at predetermined times. The request for reduced noise triggers the commencement of the noise control method. The noise control method involves reducing the operating speed of the compressor (108), as well as reducing the operating speed of at least one condenser fan (112), to within a predetermined range of allowable reduced operating speeds. The noise control method overrides the ability of the cooling system (100) to fully respond to increased cooling demands. When the noise control method is terminated the system (100) is restored to normal operation, until commencement of the next period of reduced noise requirements.

Abstract translation: 为具有至少一个制冷剂回路的冷却系统（100）提供噪声控制方法。 制冷剂回路包括压缩机（108），冷凝器（110），至少一个冷凝器风扇（112）和蒸发器（114）。 响应于在预定时间减少操作的要求来执行噪声控制。 降低噪声的要求触发了噪声控制方法的开始。 噪声控制方法包括降低压缩机（108）的操作速度，以及将至少一个冷凝器风扇（112）的操作速度降低到允许的减小的操作速度的预定范围内。 噪声控制方法优于冷却系统（100）完全响应增加冷却需求的能力。 当噪声控制方法终止时，系统（100）恢复正常操作，直到下一个减小噪声周期的开始。

公开(公告)号：WO2011022290A1

公开(公告)日：2011-02-24

申请号：PCT/US2010/045305

申请日：2010-08-12

Applicant: JOHNSON CONTROLS TECHNOLOGY COMPANY ,  KOPKO, William, L. ,  CASPER, Ian Michael ,  KESTER, Douglas Alan ,  KULANKARA, Satheesh

Inventor： KOPKO, William, L. ,  CASPER, Ian Michael ,  KESTER, Douglas Alan ,  KULANKARA, Satheesh

IPC: F25B29/00 ,  F25B41/04 ,  F25B5/04 ,  F25B6/04

CPC classification number: F25B30/02 ,  F25B5/04 ,  F25B6/04 ,  F25B29/003 ,  F25B2339/047 ,  F25B2341/0662 ,  F25B2700/1931 ,  F25B2700/1933 ,  F25B2700/195 ,  F25B2700/2103 ,  F25B2700/2106 ,  F25B2700/21151 ,  F25B2700/21161 ,  F25B2700/21172 ,  F25B2700/21173

Abstract: A heating and cooling system includes an evaporator (14), a compressor (16), and a condenser (12). A heat exchanger (18), which may be an outdoor heat exchanger, is configured to receive the refrigerant from the condenser, to selectively extract heat from or to add heat to the refrigerant, and to transfer the refrigerant to the evaporator. First control valving (34), disposed between the condenser and the heat exchanger, is configured to regulate flow of the refrigerant from the condenser to the heat exchanger in a first mode of operation. Second control valving (36), disposed between heat exchanger and the evaporatur, is configured to regulate flow of the refrigerant from the heat exchanger to the evaporator in a second mode of operation. The system may be operated in a variety of modes by appropriate control of the valving and other system components.

Abstract translation: 加热和冷却系统包括蒸发器（14），压缩机（16）和冷凝器（12）。 可以是室外热交换器的热交换器（18）构造成从冷凝器接收制冷剂，以选择性地从制冷剂中提取热量或向制冷剂加热，并将制冷剂转移到蒸发器。 设置在冷凝器和热交换器之间的第一控制阀（34）构造成在第一操作模式中调节制冷剂从冷凝器到热交换器的流动。 设置在热交换器和蒸发器之间的第二控制阀（36）构造成在第二操作模式中调节制冷剂从热交换器到蒸发器的流动。 该系统可以通过适当地控制阀门和其他系统部件以各种模式操作。