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公开(公告)号:US20070240863A1
公开(公告)日:2007-10-18
申请号:US11786257
申请日:2007-04-11
Applicant: Kihong Kim , Jungjae Lee , Youngha Jeon
Inventor: Kihong Kim , Jungjae Lee , Youngha Jeon
IPC: F28D1/00
CPC classification number: F28F9/001 , F28D1/05366 , F28F1/126 , F28F9/005 , F28F2225/02 , F28F2230/00
Abstract: The present invention relates to a heat exchanger which has approximately U-shaped ribs formed on both sides of a body of a side support, thereby preventing a deterioration of heat exchange capacity by reinforcing strength and securing bonding areas of sealing members and stably supporting radiation fins since the ribs press edges of the radiation fins.
Abstract translation: 本发明涉及一种热交换器,其具有形成在侧支撑件主体两侧的大致U形肋,从而通过加强强度和确保密封构件的结合面积并稳定地支撑散热片来防止热交换容量的劣化 因为肋压迫辐射翅片的边缘。
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公开(公告)号:US07934541B2
公开(公告)日:2011-05-03
申请号:US10558791
申请日:2004-05-28
Applicant: Taeyoung Park , Kwangheon Oh , Gilwoong Jun , Jungjae Lee
Inventor: Taeyoung Park , Kwangheon Oh , Gilwoong Jun , Jungjae Lee
CPC classification number: F28F3/044 , F28D1/0341 , F28D2021/0071 , F28F9/0282 , F28F2215/04 , F28F2250/02
Abstract: The present invention relates to a heat exchanger plate, more particularly, in which a number of beads for imparting turbulence to refrigerant flowing through a channel of a plate are formed streamlined and guide beads arre formed in refrigerant distributing sections in order to reduce the pressure drop of refrigerant while realizing uniform refrigerant distribution. In the heat exchanger plate of a tube including a tank communicating with a channel, a number of first beads so arrayed in the plate that opposed sides are coupled to each other to impart turbulence to refrigerant flowing through the channel and refrigerant distributing sections provided in inlet and outlet sides of the channel and divided by at least one second bead to have a plurality of paths, the first beads are formed streamlined and satisfy an equation of 0.35≦W/L≦0.75, wherein W is the width and L is the length.
Abstract translation: 本发明涉及一种热交换器板,更具体地说,在制冷剂分配部分中形成有多个用于对流过板的通道的制冷剂产生湍流的珠流线型和导向珠,以减小压降 的制冷剂,同时实现均匀的制冷剂分配。 在包括与通道连通的罐的管的热交换器板中,排列在板中的多个第一珠彼此连接,以对流过通道的制冷剂和设置在入口中的制冷剂分配部分进行湍流 和通道的出口侧,并被至少一个第二小珠分开以具有多个路径,第一珠形成流线型并且满足0.35≤n1E; W / L< NlE; 0.75的等式,其中W是宽度,L是 长度。
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公开(公告)号:US20160033193A1
公开(公告)日:2016-02-04
申请号:US14880559
申请日:2015-10-12
Applicant: Sungho KANG , Hakkyu KIM , Youngho CHOI , Jungjae LEE , Taeeun KIM , Jeonghun SEO
Inventor: Sungho KANG , Hakkyu KIM , Youngho CHOI , Jungjae LEE , Taeeun KIM , Jeonghun SEO
CPC classification number: F25D21/006 , B60H1/00785 , B60H1/00914 , B60H1/00921 , B60H1/321 , B60H2001/00949 , B60H2001/224 , B60H2001/3252 , B60H2001/326 , B60H2001/3261 , B60H2001/3263 , F25B30/02 , F25B41/00 , F25B47/022 , F25B2400/0409 , F25B2400/0411 , F25D21/002 , F25D21/12
Abstract: Disclosed therein are a heat pump system for a vehicle and a method of controlling the heat pump system, which determines that frosting begins on an exterior heat exchanger and carries out a defrosting control if a difference value between outdoor temperature and refrigerant temperature of an outlet side of the exterior heat exchanger is above a frosting decision temperature in a heat pump mode, thereby increasing frost-prevention and defrosting effects and enhancing heating performance and stability of the system because the system recognizes the beginning of frosting on the exterior heat exchanger at a proper time so as to carry out the defrosting control.
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Patent Agency Ranking
公开(公告)号:US08948966B2
公开(公告)日:2015-02-03
申请号:US13780928
申请日:2013-02-28
Applicant: Taeeun Kim , Hakkyu Kim , Saewon Oh , Younwoo Lim , Sangjun Yoo , Jungjae Lee , Youngho Choi , Sungho Kang , Jeonghun Seo
Inventor: Taeeun Kim , Hakkyu Kim , Saewon Oh , Younwoo Lim , Sangjun Yoo , Jungjae Lee , Youngho Choi , Sungho Kang , Jeonghun Seo
CPC classification number: F25B29/003 , B60H1/00921 , B60H1/2218 , B60H1/3216 , B60H2001/3238 , B60H2001/3261 , B60H2001/3272
Abstract: Disclosed therein are a heat pump system for a vehicle and a method of controlling the heat pump system, which variably controls only a compressor if the number of revolutions of the compressor is less than the upper limit of the number of the maximum revolutions of the compressor and operates an electric heater only when the number of revolutions of the compressor reaches the upper limit of the number of the maximum revolutions of the compressor in order to satisfy a target discharge temperature in a heat pump mode, thereby preventing that convergence of an air discharge temperature of the interior of the vehicle is deteriorated or becomes unstable when the compressor and the electric heater are variably controlled at the same time in order to satisfy the target discharge temperature.
Abstract translation: 其中公开了一种用于车辆的热泵系统和一种控制热泵系统的方法,该系统仅在压缩机的转数小于压缩机的最大转数的上限时可变地仅控制压缩机 并且仅当压缩机的转数达到压缩机的最大转速的上限以满足热泵模式中的目标排出温度时才操作电加热器,从而防止空气排出 为了满足目标排放温度,当压缩机和电加热器同时可变地控制时,车辆内部的温度劣化或变得不稳定。
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公开(公告)号:US20130228324A1
公开(公告)日:2013-09-05
申请号:US13780928
申请日:2013-02-28
Applicant: Taeeun KIM , Hakkyu KIM , Saewon OH , Younwoo LIM , Sangjun YOO , Jungjae LEE , Youngho CHOI , Sungho KANG , Jeonghun SEO
Inventor: Taeeun KIM , Hakkyu KIM , Saewon OH , Younwoo LIM , Sangjun YOO , Jungjae LEE , Youngho CHOI , Sungho KANG , Jeonghun SEO
IPC: F25B29/00
CPC classification number: F25B29/003 , B60H1/00921 , B60H1/2218 , B60H1/3216 , B60H2001/3238 , B60H2001/3261 , B60H2001/3272
Abstract: Disclosed therein are a heat pump system for a vehicle and a method of controlling the heat pump system, which variably controls only a compressor if the number of revolutions of the compressor is less than the upper limit of the number of the maximum revolutions of the compressor and operates an electric heater only when the number of revolutions of the compressor reaches the upper limit of the number of the maximum revolutions of the compressor in order to satisfy a target discharge temperature in a heat pump mode, thereby preventing that convergence of an air discharge temperature of the interior of the vehicle is deteriorated or becomes unstable when the compressor and the electric heater are variably controlled at the same time in order to satisfy the target discharge temperature.
Abstract translation: 其中公开了一种用于车辆的热泵系统和一种控制热泵系统的方法,该系统仅在压缩机的转数小于压缩机的最大转数的上限时可变地仅控制压缩机 并且仅当压缩机的转数达到压缩机的最大转速的上限以满足热泵模式中的目标排出温度时才操作电加热器,从而防止空气排出 为了满足目标排放温度,当压缩机和电加热器同时可变地控制时,车辆内部的温度劣化或变得不稳定。
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公开(公告)号:US20130227973A1
公开(公告)日:2013-09-05
申请号:US13781979
申请日:2013-03-01
Applicant: Sungho KANG , Hakkyu KIM , Youngho CHOI , Jungjae LEE , Taeeun KIM , Jeonghun SEO
Inventor: Sungho KANG , Hakkyu KIM , Youngho CHOI , Jungjae LEE , Taeeun KIM , Jeonghun SEO
CPC classification number: F25D21/006 , B60H1/00785 , B60H1/00914 , B60H1/00921 , B60H1/321 , B60H2001/00949 , B60H2001/00961 , B60H2001/224 , B60H2001/3252 , B60H2001/326 , B60H2001/3261 , B60H2001/3263 , F25B30/02 , F25B41/00 , F25B47/022 , F25B2400/0409 , F25B2400/0411 , F25D21/002 , F25D21/12
Abstract: Disclosed therein are a heat pump system for a vehicle and a method of controlling the heat pump system, which determines that frosting begins on an exterior heat exchanger and carries out a defrosting control if a difference value between outdoor temperature and refrigerant temperature of an outlet side of the exterior heat exchanger is above a frosting decision temperature in a heat pump mode, thereby increasing frost-prevention and defrosting effects and enhancing heating performance and stability of the system because the system recognizes the beginning of frosting on the exterior heat exchanger at a proper time so as to carry out the defrosting control.
Abstract translation: 其中公开了一种用于车辆的热泵系统和控制热泵系统的方法,其确定在外部热交换器上开始结霜,并且如果出口侧的室外温度和制冷剂温度之间的差异值,则执行除霜控制 的外部热交换器在热泵模式下高于结霜决定温度,从而增加防霜和除霜效果并提高系统的加热性能和稳定性,因为系统在适当的温度下识别外部热交换器上的结霜开始 时间进行除霜控制。
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公开(公告)号:US07857038B2
公开(公告)日:2010-12-28
申请号:US11786257
申请日:2007-04-11
Applicant: Kihong Kim , Jungjae Lee , Youngha Jeon
Inventor: Kihong Kim , Jungjae Lee , Youngha Jeon
IPC: F28D1/00
CPC classification number: F28F9/001 , F28D1/05366 , F28F1/126 , F28F9/005 , F28F2225/02 , F28F2230/00
Abstract: The present invention relates to a heat exchanger which has approximately U-shaped ribs formed on both sides of a body of a side support, thereby preventing a deterioration of heat exchange capacity by reinforcing strength and securing bonding areas of sealing members and stably supporting radiation fins since the ribs press edges of the radiation fins.
Abstract translation: 本发明涉及一种热交换器,其具有形成在侧支撑件主体两侧的大致U形肋,从而通过加强强度和确保密封构件的结合面积并稳定地支撑散热片来防止热交换容量的劣化 因为肋压迫辐射翅片的边缘。
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公开(公告)号:US20060249281A1
公开(公告)日:2006-11-09
申请号:US10558791
申请日:2004-05-28
Applicant: Taeyoung Park , Kwangheon Oh , Gilwoong Jun , Jungjae Lee
Inventor: Taeyoung Park , Kwangheon Oh , Gilwoong Jun , Jungjae Lee
IPC: F28D1/03
CPC classification number: F28F3/044 , F28D1/0341 , F28D2021/0071 , F28F9/0282 , F28F2215/04 , F28F2250/02
Abstract: The present invention relates to a heat exchanger plate, more particularly, in which a number of beads for imparting turbulence to refrigerant flowing through a channel of a plate are formed streamlined and guide beads arre formed in refrigerant distributing sections in order to reduce the pressure drop of refrigerant while realizing uniform refrigerant distribution. In the heat exchanger plate of a tube including a tank communicating with a channel, a number of first beads so arrayed in the plate that opposed sides are coupled to each other to impart turbulence to refrigerant flowing through the channel and refrigerant distributing sections provided in inlet and outlet sides of the channel and divided by at least one second bead to have a plurality of paths, the first beads are formed streamlined and satisfy an equation of 0.35≦W/L≦0.75, wherein W is the width and L is the length.
Abstract translation: 本发明涉及一种热交换器板,更具体地说,在制冷剂分配部分中形成有多个用于对流过板的通道的制冷剂产生湍流的珠流线型和导向珠,以减小压降 的制冷剂,同时实现均匀的制冷剂分配。 在包括与通道连通的罐的管的热交换器板中,排列在板中的多个第一珠彼此连接,以对流过通道的制冷剂和设置在入口中的制冷剂分配部分进行湍流 和通道的出口侧,并被至少一个第二焊道分开以具有多个路径,第一珠形成流线型并满足0.35≤W/L≤0.75的等式,其中W是宽度,L是 长度。
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