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    • 51. 发明授权
    • 전동식 압축기
    • 电子压缩机
    • KR101682247B1
    • 2016-12-02
    • KR1020100091057
    • 2010-09-16
    • 한온시스템 주식회사
    • 김홍민문치명박일영황인국장대환이준강원종보
    • F04C29/00F04C29/02F04C18/02
    • 본발명은전동식압축기에관한것으로, 더욱상세하게는전동식압축기의회전자의회전방향으로리브가형성된전동식압축기에관한것이다. 본발명에의한전동식압축기는, 제2전방하우징(30)의외벽(39)과베어링지지부(34) 사이에는모터(22)의회전자(22b)가회전하는회전방향으로경사진다수개의경사비드(36)가상기제2전방하우징(30)의바닥면(32)에서돌출되어형성된다. 본발명의전동식압축기에의하면, 제2전방하우징에모터의회전자의회전방향과같은방향으로경사비드를형성하고, 베어링이결합되는베어링지지부에유로를형성하여냉매가중간하우징으로원활하게이동할수 있는효과가있다.
    • 目的:通过在轴承支撑部件往复式压缩机上形成流道,设置电子压缩机以使制冷剂和油顺畅地移动到后壳体。 构成:往复式压缩机包括第一前壳体,中间壳体和第二前壳体(30)。 第一前壳体包括吸入口和电动机,为制冷剂的压缩提供驱动力。 压缩装置安装在中间壳体中。 第二前壳体安装在第一前壳体和中间壳体之间。 轴承支撑部分(34)形成在第二前壳体的中心。 第二个前部房屋的顶部打开。 在外壁(39)和第二前壳体的轴承支撑部分之间形成有多个倾斜珠(36)。 斜坡珠沿电动机的转子旋转的方向倾斜。
    • 52. 发明公开
    • 오일분리기가 설치된 압축기
    • 具有油分离器的压缩机
    • KR1020160040936A
    • 2016-04-15
    • KR1020140134496
    • 2014-10-06
    • 한온시스템 주식회사
    • 문치명김홍민임재훈정수철황인국
    • F04C18/02F04C29/02
    • F04C29/026F04C18/0215F04C29/028F04C29/12F04C2210/26F04C2240/30Y10S415/00Y10S417/00
    • 본발명은, 압축기의리어케이싱내에별도의분리관을설치할필요가없도록하면서도오일함유가스가상부로만흐르면서원심분리가이루어질수 있도록하기위한것으로, 본발명에따르면, 압축기(1)의리어케이싱(250)내에, 토출실(150)로부터유입되는오일함유가스로부터오일을분리하는오일분리기가설치된압축기에있어서, 상기리어케이싱(250)은상기오일이분리된가스를압축기외부로토출하는토출포트(260)를포함하고, 상기오일분리기는, 상기토출실(150)로부터오일함유가스가유입되는하부연통구멍(280) 및오일이분리된가스가상측으로배출되는상측배출구(290)를구비하는제1분리실(270)과, 상기제1분리실(270)의상측배출구(290)와상기토출포트(260)사이를연통하는제2분리실(300)을포함하는것을특징으로하는오일분리기가설치된압축기가제공된다.
    • 本发明涉及一种具有油分离器的压缩机,其中含油气体仅沿其上部流动,并且在压缩机的后壳体中不设置附加分离管的情况下实现离心。 根据压缩机,其具有安装在压缩机(1)的后壳体(250)中并将油从与本发明的排出室(15)流入的含油气体分离的压缩机,后壳体(250 )包括排出口(260),排出口将油分离到压缩机外部的气体,油分离器包括:具有下部连通孔(280)的第一分离室(270),通过该下部连通孔 (150)和上排出口(290)流入,油分离的气体通过排出口排出到上侧; 以及将第一分离室(270)的上排出口(290)与排出口(260)连接的第二分离室(300)。
    • 53. 发明公开
    • 스크롤 압축기의 오일 분리장치
    • 滚筒式压缩机用油分离器
    • KR1020160032440A
    • 2016-03-24
    • KR1020140122537
    • 2014-09-16
    • 한온시스템 주식회사
    • 김홍민문치명임권수정수철
    • F04C29/02F04C18/02
    • F04C29/026F04C18/0215F04C23/008F04C29/028F04C2210/26F04C2240/30Y10S415/00Y10S417/902
    • 토출실로부터고압으로압축되어유분리실로토출되는냉매에와류형유동특성을부여함과동시에유분리공간내에서유분리된냉매의토출부위치와유분리된오일의배출부위치를각각상측과하측의공간으로최대한이격시켜배치함으로써냉매로부터오일의유분리성능을향상시킬수 있는스크롤압축기의오일분리장치를개시한다. 전술한스크롤압축기의오일분리장치는압축실(60)로부터압축된냉매를공급받는토출실(70), 상기토출실(70)과냉매토출통로(114)를매개로교통하는유분리실(110), 및상기유분리실(110)의내부에설치되는유분리기(100)를구비하고, 상기유분리기(100)는상측내부공간에상기유분리실(110)과교통하여유분리된냉매를토출포트(112)를통해외부로공급하는냉매의토출경로(120)를형성하며, 상기유분리실(110)은하측에유분리된오일을압축기의내부로제공하는오일의공급경로(130)를형성한다.
    • 本发明公开了一种用于涡旋压缩机的油分离器,其对于在高压下被压缩并从排出室排出到油分离室中的制冷剂施加涡流特性,并且还允许在油分离室中分离油的制冷剂排放部分 以及分别设置在上部空间和下部空间上的分离的排油部,以使得排出部尽可能地彼此间隔开,从而提高了从制冷剂分离油的性能。 如上所述,用于涡旋压缩机的油分离器包括:排出室(70),其设置有来自压缩室(60)的压缩制冷剂; 经由制冷剂排出通路(114)与排出室(70)连接的油分离器室(110)。 以及安装在油分离室(110)内部的油分离器(100)。 油分离器(100)具有形成在其上侧的内部空间的制冷剂排出通路(120),制冷剂排出通路(120)与油分离室(110)连通,供给从油分离的制冷剂 排出口(112)。 油分离室(110)具有形成在其下侧的供油通道(130),油分离室(110)将分离的油供给到压缩机的内部。
    • 55. 发明公开
    • 고전압 커넥터 조립체
    • 高压连接器总成
    • KR1020130142516A
    • 2013-12-30
    • KR1020120065798
    • 2012-06-19
    • 한온시스템 주식회사
    • 박건웅문치명정수철백찬호황인국김홍민김정선손재식
    • F04B39/00H01R13/639
    • H01R13/639H01R13/6272H01R13/707
    • A connector assembly comprises: first housing (110) having a first terminal inside; second housing having a second terminal which is electrically connected to the first terminal; a locking part comprising a first locking member (130) installed on a side of the first housing, and a second locking member (140) installed on a side of the second housing and connected to the first locking member. The connector assembly is to connect an electric compressor(300) and an external power (700) electrically. The power supply to the electric compressor is determined by the opening or shutting of an interlock circuit unit(200). The interlock circuit unit is shut when the first and second locking members are combined, and is opened when they are separated.
    • 连接器组件包括:第一壳体(110),其内部具有第一端子; 第二壳体,具有与第一端子电连接的第二端子; 一个锁定部件,包括安装在第一壳体一侧的第一锁定件(130)和安装在第二壳体的一侧并连接到第一锁定件上的第二锁定件(140)。 连接器组件用于电连接电动压缩机(300)和外部电源(700)。 电动压缩机的电源由互锁电路单元(200)的打开或关闭决定。 互锁电路单元在第一和第二锁定构件组合时关闭,并且当它们分离时打开。
    • 56. 发明公开
    • 스크롤 압축기
    • 滚动压缩机
    • KR1020130094653A
    • 2013-08-26
    • KR1020120016070
    • 2012-02-16
    • 한온시스템 주식회사
    • 김홍민임권수황인국원종보
    • F04C18/02F04C14/20F04C29/00F04C29/12F04C23/00
    • F04C18/0215F04C14/20F04C18/0261F04C18/0292F04C23/008F04C29/0035F04C29/124F04C2270/21
    • PURPOSE: A scroll compressor is provided to prevent generation of a gap between an orbiting scroll and a fixing scroll even in case of the insufficient pressure in a back pressure chamber, since a back pressure plate of the back pressure chamber elastically supports an orbiting scroll. CONSTITUTION: A scroll compressor includes a housing, a fixing scroll, an orbiting scroll (32), a discharge chamber, and a back pressure chamber (80). The housing accommodates a drive unit, and forms an intake chamber inside to inhale refrigerant. The scroll is fixed inside the housing. The orbiting scroll performs a turning movement by using the drive unit, and forms a compression chamber by being interlocked with the fixing scroll. The discharge chamber discharges the refrigerant which is compressed in the compression chamber. The back pressure chamber applies pressure to the orbiting scroll to be close to the fixing scroll. A back pressure plate (100), which supports an orbiting scroll by using the pressure of the back pressure chamber by being directly contacted with the orbiting scroll, is provided in the back pressure chamber. The back pressure plate is elastically deformed to elastically support the orbiting scroll.
    • 目的:为了防止背压室内的压力不足的情况下,由于背压室的背压板弹性地支承绕动涡盘,所以设置有涡旋式压缩机,以防止绕动涡旋体与固定用涡旋盘之间产生间隙。 构成:涡旋压缩机包括壳体,固定涡旋件,绕动涡盘(32),排放室和背压室(80)。 壳体容纳驱动单元,并且在内部形成吸入制冷剂的进气室。 涡卷固定在外壳内。 绕动涡卷通过使用驱动单元执行转动运动,并且通过与定影涡旋件互锁而形成压缩室。 排出室对在压缩室中被压缩的制冷剂进行排出。 背压室对绕动涡旋件施加压力以靠近固定涡旋件。 背压室(100)设置在背压室中,背压板(100)通过与回转涡旋件直接接触而利用背压室的压力支撑绕动涡旋件。 背压板弹性变形以弹性地支撑绕动涡旋件。
    • 57. 发明公开
    • 스크롤 압축기
    • 滚动压缩机
    • KR1020130011656A
    • 2013-01-30
    • KR1020110072964
    • 2011-07-22
    • 한온시스템 주식회사
    • 이정재김홍원김민규김홍민임권수
    • F04C29/12F04C18/02F04C29/06
    • F04C29/0035F04C18/0215F04C29/0021F04C29/12F04C2210/26F04C2240/30Y10S415/00Y10S417/00
    • PURPOSE: A scroll compressor is provided to reduce power consumption, and reduce a pressure decrease by removing beads protruding from the bottom of a cover housing. CONSTITUTION: A scroll compressor comprises a compression unit, a cover housing(100), and a discharge hole. The compression unit sucks refrigerant, and compresses the refrigerant by a fixing scroll and a rotary scroll. The cover housing is installed at one side of the compression unit, and a discharge port(300) that the compressed refrigerant is discharged is formed. The discharge hole connects the compression unit to the cover housing. In the cover housing, high pressure is formed between the discharge port and the discharge hole. A high pressure chamber is divided by a plurality of guide walls, and a plurality of fluid paths is formed by the guide walls. The plurality of fluid paths is formed at the center of the cover housing with a predetermined curvature. The plurality of fluid paths is in proportion to a hydraulic diameter and length.
    • 目的:提供一种涡旋压缩机,以降低功耗,并通过从盖壳底部突出的珠子去除减小压力降低。 构成:涡旋压缩机包括压缩单元,盖壳体(100)和排放孔。 压缩单元吸入制冷剂,并通过固定涡旋件和旋转涡旋件压缩制冷剂。 盖壳安装在压缩单元的一侧,形成排出压缩的制冷剂的排出口(300)。 排放孔将压缩单元连接到盖壳体。 在盖壳体中,在排出口和排出孔之间形成高压。 高压室由多个导向壁分隔,并且多个流体路径由导向壁形成。 多个流体路径以预定的曲率形成在盖壳体的中心。 多个流体路径与液压直径和长度成比例。