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    • 1. 发明申请
    • Flat tube adapted for heat exchanger
    • 适用于热交换器的扁平管
    • US20070287334A1
    • 2007-12-13
    • US11802316
    • 2007-05-22
    • Kenji YagisawaShiro IkutaKazunori NamaiTakashi MachidaRyuji Fuse
    • Kenji YagisawaShiro IkutaKazunori NamaiTakashi MachidaRyuji Fuse
    • H01R24/00
    • F28F1/42F28F1/02F28F1/426F28F3/046F28F2001/027
    • A flat tube includes pairs of dimple portions in a longitudinal direction thereof. Each of the pairs has a first dimple portion and a second dimple portion, which are slanted with respect to an intermediate line extending in the longitudinal direction at an intermediate position in a lateral direction so that inner end wall portions of the first and second dimple portions are located on the intermediate line, and so that the outer end wall potions thereof depart from the intermediate line in the lateral direction to be toward outer sides of the tube, respectively. The pairs of dimple portions are set to satisfy a relationship expressed by an inequality: 3≦L2/L1≦12, where L1 is a longitudinal projection length obtained by projecting one of the first and second dimple portions on the intermediate line, and L2 is a longitudinal pitch between adjacent pairs.
    • 扁平管在其纵向方向上包括一对凹窝部分。 每一对具有第一凹部和第二凹部,其相对于在纵向方向上在中间位置沿纵向延伸的中间线倾斜,使得第一和第二凹部的内端壁部分 位于中间线上,并且其外端壁部分分别在横向方向上离开中间线以朝向管的外侧。 这些凹坑部分被设置为满足由不等式表示的关系:3 <= L 2 / L 1 <= 12,其中L 1是通过将第一和第二凹坑中的一个突出在中间体上而获得的纵向突出长度 L 2是相邻对之间的纵向间距。
    • 2. 发明申请
    • HEAT EXCHANGER
    • 热交换器
    • US20100089560A1
    • 2010-04-15
    • US12450233
    • 2008-03-21
    • Naoki ShikazonoTsunehito WakeShiro Ikuta
    • Naoki ShikazonoTsunehito WakeShiro Ikuta
    • F28F1/10
    • F28D1/05366F28F1/06F28F1/08F28F1/10F28F1/16F28F1/34F28F1/38F28F1/40F28F1/42F28F1/426F28F3/046F28F13/06
    • A heat exchanger assembled from multiple heat exchanging tubes. Each of the multiple heat exchanging tubes is formed as a flattened tube of 0.5 mm in thickness by press work or bending work of a stainless steel plate member having a thickness of 0.1 mm. Each of the multiple heat exchanging tubes is structured to have multiple lines of sequential wave crests and multiple lines of sequential wave troughs formed on each of flattened faces of the heat exchanging tube. The multiple lines of the sequential wave crests and the multiple lines of the sequential wave troughs are arranged to have a preset angle γ relative to a main stream of an air flow. The lines of the sequential wave crests and the lines of the sequential wave troughs are symmetrically folded back about folding lines arranged at a preset interval W along the main stream of the air flow.
    • 由多个热交换管组装的热交换器。 多个热交换管中的每一个通过压力加工或厚度为0.1mm的不锈钢板构件的弯曲加工而形成为厚度为0.5mm的扁平管。 多个热交换管中的每一个被构造成具有多条相继的波峰,并且在热交换管的每个平坦表面上形成多条相继的波谷。 顺序波峰的多条线和顺序波谷的多条线被布置成相对于空气流的主流具有预设角度γ。 沿着空气流的主流,连续波峰的线和顺序波谷的线对围绕以预设间隔W布置的折叠线对称地折叠。
    • 6. 发明申请
    • Heat Recovery System
    • 热回收系统
    • US20100251702A1
    • 2010-10-07
    • US12734455
    • 2008-11-07
    • Naoki ShikazonoKoji MatsuokaIsamu KandoriShiro IkutaTsunehito Wake
    • Naoki ShikazonoKoji MatsuokaIsamu KandoriShiro IkutaTsunehito Wake
    • F01N5/02
    • F01N5/02F01N2240/02F28D7/0041F28D7/005F28D21/0003F28F2250/06F28F2265/10F28F2265/26Y02T10/16
    • A plurality of flat tubes formed as a tube having notches by linearly cutting upper and lower parts from a hollow flat circular doughnut shape are stacked to structure a tube laminate. It is attached to a case so that a notch aligns with the notch and faces upward by an exhaust inflow end plate and that a notch aligns with the notch and faces downward by an exhaust outflow end plate. A cutoff valve is provided at an exhaust outflow end of an exhaust communication tube passing through the center of the tube laminate by heat insulation. While an internal combustion engine is warming up, the cutoff valve is closed to cause the exhaust to flow in gaps of the respective flat tubes from upward to downward as a whole and also a heat exchange medium is caused to flow in the respective flat tubes from downward to upward as a whole to have heat exchanged between the exhaust and the heat exchange medium to recover the exhaust heat.
    • 多个扁平管被形成为具有凹口的管,通过从中空的扁平圆环形圆环形状线性切割上部和下部,以构成管层压体。 它连接到壳体上,使得凹口与凹口对准并且由排气流入端板朝上,并且凹口与凹口对齐并且由排气流出端板朝下。 在通过绝热的管层叠体的中心的排气连通管的排气流出端设置截流阀。 在内燃机正在升温的同时,截止阀关闭,导致排气在整个平面管的上下流动,并使热交换介质在各扁平管中流动 向下到整体上在废气和热交换介质之间进行热交换以回收排气热。
    • 9. 发明申请
    • HEAT EXCHANGER
    • 热交换器
    • US20130032320A1
    • 2013-02-07
    • US13575727
    • 2011-01-27
    • Naoki ShikazonoTsunehito WakeShiro IkutaIsamu KandoriKazuaki Iwamoto
    • Naoki ShikazonoTsunehito WakeShiro IkutaIsamu KandoriKazuaki Iwamoto
    • F28D1/053F28F13/06F28F9/02F28F1/04F28F1/06
    • F28D7/1692F28D9/0043F28D21/0003F28F3/046F28F9/22F28F17/005
    • A plurality of heat-exchange tubes 30 each including a flat pipe including a groove 36 and wavelike depression-and-projection portions 33, 34 are arranged in parallel in such a manner that each of respective longitudinal directions thereof is a vertical direction, and a heat exchange medium is made to flow from an inlet 31 at each lower portion to an outlet 32 at each upper portion. Guide walls 43, 44 are provided in a shell 40, and exhaust gas is made to flow an inlet 41 at an upper portion to an outlet 42 at a lower portion, thereby making the exhaust gas meander in flow paths 46a to 46d and a space between the plurality of heat-exchange tubes 30. The exhaust gas and the heat exchange medium have flows opposed to each other as a whole, and a secondary flow of the exhaust gas is made to occur by the wavelike depression-and-projection portions 33, 34, thereby enhancing the heat exchange efficiency, and the arrangement in such a manner that each of the longitudinal directions is the vertical direction and the formation of a groove 36 and the wavelike depression-and-projection portions 33, 34 enable acceleration of downward discharge of condensed water.
    • 每个包括槽36和波浪形凹陷突起部分33,34的扁平管的多个热交换管30以其各个纵向方向为垂直方向的方式平行布置,并且 使热交换介质从每个下部的入口31流到每个上部的出口32。 引导壁43,44设置在壳体40中,使废气在上部将上部的入口41流到出口42,从而使废气在流路46a至46d中弯曲,并且空间 排气和热交换介质整体上具有彼此相对的流动,并且通过波纹凹凸部33发生废气的二次流动 ,34,从而提高热交换效率,并且以这样的方式布置,即每个纵向方向是垂直方向,并且形成槽36,并且波纹状凹凸部33,34能够加速向下 排出冷凝水。
    • 10. 发明授权
    • Heat recovery system
    • 热回收系统
    • US08266900B2
    • 2012-09-18
    • US12734455
    • 2008-11-07
    • Naoki ShikazonoKoji MatsuokaIsamu KandoriShiro IkutaTsunehito Wake
    • Naoki ShikazonoKoji MatsuokaIsamu KandoriShiro IkutaTsunehito Wake
    • F01N5/02
    • F01N5/02F01N2240/02F28D7/0041F28D7/005F28D21/0003F28F2250/06F28F2265/10F28F2265/26Y02T10/16
    • A plurality of flat tubes formed as a tube having notches by linearly cutting upper and lower parts from a hollow flat circular doughnut shape are stacked to structure a tube laminate. It is attached to a case so that a notch aligns with the notch and faces upward by an exhaust inflow end plate and that a notch aligns with the notch and faces downward by an exhaust outflow end plate. A cutoff valve is provided at an exhaust outflow end of an exhaust communication tube passing through the center of the tube laminate by heat insulation. While an internal combustion engine is warming up, the cutoff valve is closed to cause the exhaust to flow in gaps of the respective flat tubes from upward to downward as a whole and also a heat exchange medium is caused to flow in the respective flat tubes from downward to upward as a whole to have heat exchanged between the exhaust and the heat exchange medium to recover the exhaust heat.
    • 多个扁平管被形成为具有凹口的管,通过从中空的扁平圆环形圆环形状线性切割上部和下部,以构成管层压体。 它连接到壳体上,使得凹口与凹口对准并且由排气流入端板朝上,并且凹口与凹口对齐并且由排气流出端板朝下。 在通过绝热的管层叠体的中心的排气连通管的排气流出端设置截流阀。 在内燃机正在升温的同时,截止阀关闭,导致排气在整个平面管的上下流动,并使热交换介质在各扁平管中流动 向下到整体上在废气和热交换介质之间进行热交换以回收排气热。