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    • 51. 发明申请
    • Energy recycling air handling system
    • 能源回收空气处理系统
    • US20030042012A1
    • 2003-03-06
    • US09945788
    • 2001-09-05
    • Frederick J. Pearson
    • F24H003/02F24F003/00
    • F24F11/0001F24F12/006F24F2012/007F24F2110/12F24F2110/30Y02B30/563
    • An air handling system including at least one terminal unit for maintaining a serviced volume at a predetermined temperature below the temperature of the air supplied by the central source of the air handling system is provided through the use of a refrigerant means in the form of a passive thermal energy recovery device which provides heat transfer between the outgoing and inflowing air streams provided by the a central air handling system. The heat transfer between air streams is regulated as a function of air velocity and temperature differentials as measured at various points in system which are related specifically to the serviced volume. Environmental control within the serviced volume is exercised by controlling face and bypass dampers to regulate the air flow through the passive heat exchanger and the air exchange rate is controlled by modulating the operation of the dampers or by regulating the air flow into or out of the serviced volume by way of supply and/or exhaust louvers.
    • 一种空气处理系统,包括至少一个终端单元,用于将处于维护的容积维持在低于由空气处理系统的中心源供应的空气的温度的预定温度下,通过使用无源形式的制冷剂装置 热能回收装置,其在由中央空气处理系统提供的输出和流入空气流之间提供热传递。 空气流之间的传热作为空气速度和温差的函数进行调节,如在系统中与服务体积特别相关的各个点测量的。 服务体积内的环境控制是通过控制面部和旁路阻尼器来调节通过被动热交换器的空气流量来实现的,并且通过调节阻尼器的操作来控制空气交换速率,或者通过调节流入或流出服务的空气流 通过供应和/或排气百叶窗的量。
    • 52. 发明申请
    • Heat exchange system and method of use
    • 换热系统及使用方法
    • US20030029605A1
    • 2003-02-13
    • US10146881
    • 2002-05-17
    • Alan Lebrun
    • F28F001/00F24H003/02F24H003/06F28F013/12F28D001/04
    • F28D1/024A01M1/2094F28D1/0477F28F2265/00
    • An improved heat exchange apparatus for insertion in a housing comprises heat exchange tubes extending substantially parallel to a direction of fluid flow through the housing and a plurality of spaced and circumferential fins formed along the heat exchange tubes and extending substantially perpendicular to the direction of fluid flow through the housing. Preferably the housing is fit with a fluid mover for driving the fluid over the tubes. The improved heat exchanger can be applied in a method for extermination of pests comprising providing a minimal envelope, heating ambient air within the envelope using the improved heat exchanger and discharging the heated air into the envelope so that the temperature of air in the envelope is sufficiently high to kill pests. Moving air across steam filled tubes enables use of the system in explosion classified areas and without damage to goods or equipment.
    • 用于插入壳体中的改进的热交换装置包括基本上平行于流过壳体的流体流动方向延伸的热交换管,以及沿着热交换管形成并沿着流体流动方向延伸的多个间隔和周向的翅片 通过住房。 优选地,壳体与流体驱动器配合以驱动管道上的流体。 改进的热交换器可以用于消灭害虫的方法,包括提供最小的包层,使用改进的热交换器加热外壳内的环境空气并将加热的空气排放到外壳中,使得外壳中的空气温度足够 高杀虫害 在蒸汽填充管中移动空气使得可以在爆炸分类区域中使用该系统,并且不会损坏货物或设备。
    • 53. 发明申请
    • Counter flow two pass active heat sink with heat spreader
    • 逆流二通散热器散热片
    • US20030024693A1
    • 2003-02-06
    • US09919526
    • 2001-07-31
    • Eric Hayes PettyAndrew Douglas Delano
    • F28F001/00F24H003/02F28F007/00H05K007/20H01L023/34
    • H01L23/467F28D2021/0029F28F3/02F28F21/084F28F21/085H01L23/3735H01L2924/0002H01L2924/00
    • The heat removal ability of a finned counter flow two pass active heat sink is increased by placing a heat spreader at the location where the heat flux enters the active heat sink a heat. This allows a more uniform distribution of the entering heat flux into the cross section of the active heat sink, increasing its ability to transfer that heat to the air flow. Copper is a good choice for the heat spreader. It can be intimately bonded to the material of choice for the body of the active heat sink (aluminum). Intimate bonding assures good heat transfer from the spreader into the base of the balance of the heat sink. The heat spreader can be hot rolled onto aluminum billets, the result cut into workpieces and then shaped. Discs of copper can be friction welded to biscuits of aluminum rod with spinning, and then shaped. Or, a disc of copper can be forge welded onto a biscuit of aluminum, which operation may include a partial forging of the aluminum into a near final shape.
    • 通过在热通量进入有源散热器的位置放置散热器来增加翅片逆流二通主动散热器的散热能力。 这允许进入的热通量更均匀地分布到主动散热器的横截面中,增加其将热量传递到空气流的能力。 铜是散热器的不错选择。 它可以与主动散热器(铝)的主体的材料紧密结合。 紧密接合确保从散热器到散热器平衡底座的良好传热。 散热器可以热轧成铝坯,结果切成工件,然后成型。 铜盘可以摩擦焊接到铝棒的饼干上,然后成型。 或者,铜的盘可以被锻造焊接到铝的饼干上,其操作可以包括将铝部分锻造成近似的最终形状。
    • 54. 发明申请
    • HIGH PERFORMANCE COOLING DEVICE
    • 高性能冷却装置
    • US20030019609A1
    • 2003-01-30
    • US09916932
    • 2001-07-27
    • Shankar Hegde
    • F28F001/00F24H003/02F28F007/00
    • H01L23/467H01L2924/0002H01L2924/00
    • A low-cost, fan assisted cooling device is disclosed. The cooling device includes a narrow bottom and broad top shape to optimize a material versus performance ratio. A plurality of vanes surround a central heat mass and an inside surface of the vanes define a chamber that surrounds the heat mass. A portion of each vane is split into a plurality of fins and both the vanes and the fins have a surface area that increase in a radially outward direction from an axis of the heat mass. The heat mass includes a boss that is surrounded by a groove. Both the boss and the grove have arcuate surface profiles. The vanes, the fins, the boss, and the groove efficiently dissipate heat when a fan or the like forces air into the chamber thereby producing air flows in three different directions. In a first direction, the air flows out of the chamber through the vanes. In a second direction, a low pressure region in the chamber induces air from outside the chamber to flow through the fins. In a third direction, the low pressure region induces an airflow over the groove and boss. Openings between the vanes are angled and offset from an orientation of the fans blades to minimize the airflow shock losses thereby reducing fan noise. The vanes and the fins can be homogeneously formed with the heat mass.
    • 公开了一种低成本的风扇辅助冷却装置。 冷却装置包括窄的底部和宽顶部形状,以优化材料与性能比。 多个叶片围绕中心热质量块,并且叶片的内表面限定围绕热质量的室。 每个叶片的一部分被分成多个翅片,并且叶片和翅片都具有从热质的轴线沿径向向外的方向增加的表面积。 热质量包括被凹槽包围的凸台。 老板和树丛都有弓形表面轮廓。 当风扇等迫使空气进入室中时,叶片,翅片,凸台和凹槽有效地散热,从而在三个不同的方向上产生空气流。 在第一方向上,空气通过叶片流出室外。 在第二方向上,室中的低压区域引起来自室外的空气流过翅片。 在第三方向上,低压区域在槽和凸台上引起气流。 叶片之间的开口成角度并偏离风扇叶片的方向,以最小化气流冲击损失,从而减少风扇噪音。 叶片和翅片可以与热质体均匀地形成。
    • 56. 发明申请
    • Turbine recuperator
    • 涡轮回收器
    • US20020079085A1
    • 2002-06-27
    • US09749267
    • 2000-12-27
    • Lawrence Edward Rentz
    • F24H003/02
    • F28D9/0018
    • A turbine recuperator includes a housing and a support member positioned within the housing. A passage extends between the housing and the support member. A plurality of heat transfer cells are secured to the support member. Each cell includes a corrugated sheet folded over onto itself, with the sides that are folded over being secured to the support member. The ends of the sheets are sealed to define a chamber. An inlet header is in fluid communication with each chamber through a plurality of inlets formed in the support header. An outlet header is in fluid communication with each chamber through a plurality of outlets formed in the support header.
    • 涡轮机换热器包括壳体和定位在壳体内的支撑构件。 通道在壳体和支撑构件之间延伸。 多个传热单元被固定到支撑构件。 每个电池包括折叠在其上的波纹片,折叠的侧面固定到支撑构件上。 片材的端部被密封以限定室。 入口集管通过形成在支撑集管中的多个入口与每个室流体连通。 出口集管通过形成在支撑集管中的多个出口与每个室流体连通。
    • 57. 发明申请
    • Stacked-type heat dissipating apparatus
    • 堆叠型散热装置
    • US20020023737A1
    • 2002-02-28
    • US09984112
    • 2001-10-29
    • Li Jia Hao
    • F28F001/00F24H003/02F28F007/00
    • F28F3/02H01L23/467H01L2924/0002H01L2924/00
    • A stacked-type heat dissipating apparatus of the present invention includes at least one layer of heat dissipating plate stacked upon a heat guiding plate. The heat dissipating plate has a plurality of strip-shaped projections formed therein to provide a separation space between at least one layer of heat dissipating plate and the heat guiding plate. Each of the strip-shaped projections having two ends respectively formed a first pierced edge in a punch press for providing an air guide channel. Whereby the present invention has a high stacking density at small volume integrally and to assemble easily, further to provide a large porosity, to reduce hydraulic resistance and hydraulic noise.
    • 本发明的堆叠型散热装置包括堆叠在导热板上的至少一层散热板。 散热板具有形成在其中的多个条形突起,以在至少一层散热板和导热板之间提供分离空间。 每个具有两个端部的条形突起分别在冲压机中形成第一穿孔边缘,用于提供导气通道。 由此本发明在小体积下堆积密度高,容易组装,进一步提供大孔隙率,以降低液压阻力和液压噪声。
    • 60. 发明申请
    • Integrated heat recovery ventilator-HEPA filter
    • 集成热回收呼吸机-HEPA过滤器
    • US20010030036A1
    • 2001-10-18
    • US09811739
    • 2001-03-19
    • Elas Tek, Inc.
    • Anthony J. DeGregoriaThomas J. Kaminski
    • F28D017/00F28D019/00F24H003/02
    • F24F3/1411F24F12/006F24F2003/1464F28D17/00Y02B30/563
    • A heat recovery ventilator comprising four rectangular regenerative heat exchangers, two blowers, a rotating air switch all disposed in a compact rectangular housing. The regenerative heat exchangers are stationary with stationary seals between the outside and inside climate. One of the blowers blows a stale airstream out through the heat exchangers; the other blower blows a fresh airstream in through the heat exchangers. The rotating air switch operates in conjunction with the two blowers producing the necessary flow reversal through each regenerative heat exchanger to allow heat and moisture exchange between the stale airstream and the fresh airstream. The rotating air switch is completely on the inside climate side of the regenerative heat exchangers preventing freeze up in cold weather. The rotating air switch uses clearance seals. A high efficiency particulate air filtration filter may be disposed within the housing in the path of the fresh airstream.
    • 一种热回收通风机,包括四个矩形再生式热交换器,两个鼓风机,全部设置在紧凑的矩形壳体中的旋转空气开关。 再生热交换器是固定的,在外部和内部气候之间具有固定的密封。 其中一个鼓风机通过热交换器吹过一个陈旧的气流; 另一台吹风机通过热交换器吹入新鲜的气流。 旋转空气开关与两个鼓风机一起工作,通过每个再生式热交换器产生必要的流量反向,以允许陈旧的气流和新鲜空气流之间的热量和湿气交换。 旋转式空气开关完全在蓄热式热交换器的内部气候侧,防止在寒冷天气下冻结。 旋转空气开关使用间隙密封。 高效颗粒空气过滤过滤器可以在新鲜空气流的路径内设置在壳体内。