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    • 3. 发明公开
    • 전기적 연결수단을 구비한 전동압축기
    • 一种具有电连接装置的电动压缩机
    • KR1020170035744A
    • 2017-03-31
    • KR1020150135009
    • 2015-09-23
    • 한온시스템 주식회사
    • 허정길타가미,신지박일영백찬호서봉균
    • F04C23/02F04C18/02H02K5/22
    • 본발명은전기적연결수단을구비한전동압축기에관한것으로서, 작동유체를압축시키는압축기구부; 상기압축기구부를구동시키며, 고정자및 상기고정자내측에회전가능하게배치되는회전자를포함하는전동기구부; 상기전동기구부의동작을제어하는제어부; 상기전동기구부의고정자가내측에고정되고, 모터수용공간과제어부수용공간을구획하는격벽을포함하는하우징; 상기격벽을관통하여, 상기전동기구부및 상기제어부를전기적으로연결시키는복수개의통전핀; 및상기복수개의통전핀을상기격벽과인접하는상기고정자의일단부에고정시키는고정수단;을포함하는전동압축기가제공된다.
    • 本发明涉及具有电连接装置的电动压缩机,更具体地涉及具有用于压缩工作流体的压缩机构的电动压缩机; 一种用于驱动压缩机构的电动机,该电动机包括可转动地设置在定子内部的定子和转子; 控制单元,用于控制变速器机构的操作; 固定在动力传递机构部分的定子内部并分隔马达容纳空间和控制容纳空间的壳体; 多个通电销,穿过隔板以电连接动力传输机构和控制单元; 并且固定装置用于将多个通电销固定到与分隔壁相邻的定子的一端。
    • 4. 发明公开
    • 히트 펌프 시스템 및 그 제어 방법
    • 热泵系统及其控制方法
    • KR1020140101182A
    • 2014-08-19
    • KR1020130014535
    • 2013-02-08
    • 한온시스템 주식회사
    • 허정길백찬호박건웅김홍민
    • B60H1/00B60H1/32F25B30/02B60W20/00
    • The present invention relates to a heat pump system and a control method thereof which are capable of rotating a motor at a regular speed under a high-pressure condition based on the motor phase current and the discharge pressure of an electric compressor, thereby preventing the electric compressor from being stopped by an overload, wherein the heat pump system comprises an electric compressor; a condenser connected to the outlet of the electric compressor having a first exchanger; an evaporator having a second heat exchanger and connected to the inlet of the electric compressor; an expansion valve arranged on the middle of a refrigerant pipe connecting the condenser and the evaporator; a pressure sensor sensing discharge pressure in the outlet of the electric compressor; and an inverter controller calculating torque and the speed of the motor using the phase current and the discharge pressure when the phase current reaches the limit current of an inverter, and driving and controlling the motor in a power range lower than or equal to power determined by the torque and the speed.
    • 本发明涉及一种热泵系统及其控制方法,其能够基于电动机相电流和电动压缩机的排出压力在高压条件下以规定速度旋转电动机,从而防止电动 压缩机被过载停止,其中热泵系统包括电动压缩机; 连接到具有第一交换器的电动压缩机的出口的冷凝器; 具有第二热交换器并连接到电动压缩机的入口的蒸发器; 膨胀阀,布置在连接冷凝器和蒸发器的制冷剂管的中间; 感测电动压缩机出口的排出压力的压力传感器; 以及逆变器控制器,当相电流达到逆变器的限制电流时,使用相电流和放电压力来计算转矩和电动机的速度,并且在低于或等于由 扭矩和转速。
    • 5. 发明公开
    • 스크롤 압축기
    • 滚动压缩机
    • KR1020140095827A
    • 2014-08-04
    • KR1020130008702
    • 2013-01-25
    • 한온시스템 주식회사
    • 박건웅김홍민허정길이정재황인국
    • F04C18/02F04C29/06F04C23/00
    • F04C18/0215F04C18/0253F04C23/008F04C29/068F04C2270/13F04C2270/18
    • The present invention relates to a scroll compressor having a turning radius variable anti-rotation instrument (100) installed on the rear surface portion of an orbiting scroll (32) to prevent the rotation of the orbiting scroll (32), while altering the turning radius of the orbiting scroll (32) by using the flux of the orbiting scroll (32) in accordance with the pressure difference between a compression chamber (60) and a back pressure chamber (80). Since the turning radius of the orbiting scroll can be automatically adjusted by the correlation between the pressure of the compression chamber (60) and the pressure of the back pressure chamber (80), noise can be reduced during a high-pressure driving and a compression performance can be enhanced during a low-pressure driving, while enhancing the durability by preventing a fixation due to a scroll deformation.
    • 涡旋压缩机技术领域本发明涉及一种涡旋压缩机,其具有安装在绕动涡盘(32)的后表面部分上的转动半径可变防旋转仪器(100),以防止绕动涡盘(32)的旋转,同时改变转动半径 (32)的通量根据压缩室(60)和背压室(80)之间的压力差来使用。 由于可以通过压缩室60的压力与背压室80的压力之间的相关性来自动调节绕动涡旋件的转动半径,所以在高压驱动和压缩期间可以降低噪音 可以在低压驱动期间提高性能,同时通过防止由于涡旋变形引起的固定而提高耐久性。
    • 6. 发明公开
    • 전동 압축기
    • 电动压缩机
    • KR1020140083351A
    • 2014-07-04
    • KR1020120152998
    • 2012-12-26
    • 한온시스템 주식회사
    • 김홍민허정길정수철이정재
    • F04C18/02F04C29/00F04C23/02
    • F04C29/0085F04C18/0215F04C23/02F04C2210/26F04C2240/30F04C2240/40H02K5/22Y10S415/00Y10S417/00
    • The present invention relates to an electric compressor characterized in that a movement prevention rib (133) for constraining axial movement (A) of a stator (140) is formed on a center head housing (130). Multiple movement prevention ribs (133) for limiting axial movement of a stator (140) are formed on an inner side of the center head housing (130) to constrain an axial movement (A) of the stator (140) with the movement prevention rib (133) in assembling the center head housing (130) and a motor head housing (120), thereby suppressing the axial movement (A) of the stator (140) while weakly regulating the tightness between an outer surface (140a) of the stator (140) and an inner surface of the motor head housing (120), which solves deformation and damage problem of the motor head housing (120) and damage problem of internal parts of the compressor simultaneously.
    • 电动压缩机技术领域本发明涉及一种电动压缩机,其特征在于,在中心头壳体(130)上形成有用于限制定子(140)的轴向运动(A)的防止移动肋(133)。 在中心头壳体130的内侧形成用于限制定子(140)的轴向运动的多个防止移动防止肋(133),以通过防止运动的肋(140)来限制定子(140)的轴向运动(A) (133)组装中心头壳体(130)和电动机头壳体(120),从而抑制定子(140)的轴向运动(A),同时弱化地调节定子的外表面(140a)之间的紧密度 (140)和马达头壳体(120)的内表面,其解决了马达头壳体(120)的变形和损坏问题,并同时损坏压缩机内部部件的问题。
    • 10. 发明公开
    • 전동 압축기 및 이의 제어방법
    • 控制压缩机和压缩机的方法
    • KR1020150118048A
    • 2015-10-21
    • KR1020150050908
    • 2015-04-10
    • 한온시스템 주식회사
    • 허정길백찬호정수철
    • F04C29/04F04C28/00F04C28/28
    • F25B31/02B60H1/00985B60H1/3205B60H2001/325B60H2001/3257B60H2001/327F04C18/0215F04C23/008F04C28/28F04C29/04F04C2240/81F04C2270/18F04C2270/19H02P29/40
    • 본발명은전동압축기에관한것으로서, 이를위해본 발명은전동압축기의냉매상태를감지하기위한감지부(10); 상기전동압축기의내부에서냉매가이동하는하우징(2)의유로(3)와인접한위치에권취된결선부(20); 및상기감지부(10)를통해감지된감지데이터에따라상기결선부(20)에인가되는전원을서로상이하게제어하여상기냉매의상태에따른제어를실시하는제어부(30)를포함하는전동압축기를포함한다. 또한본 발명은전동압축기의제어밥업에관한것으로서, 이를위해본 발명은전동압축기에전원이온(On)된이후에로터에대한위치정렬을실시하는단계(ST10); 상기로터에대한위치정렬이이루어진이후에냉매가액상인지기상인지판단하는냉매상태판단단계(ST20); 상기냉매의상태에따라전동압축기로전원을인가하여냉매에대한프리히팅을실시하는단계(ST30); 및상기프리히팅이이루어진이후에상기전동압축기를정상작동상태로제어하는단계(ST40)를포함한다.
    • 电动压缩机技术领域本发明涉及一种电动压缩机,包括:用于感测电动压缩机的制冷剂状态的感测部分(10) 卷绕在与壳体(2)的流路(3)相邻的位置的线连接部(20),其中制冷剂在电动压缩机内流动; 以及控制部件(30),用于根据通过感测部件(10)感测的感测数据,不同地控制施加到线连接部件(20)的功率,根据制冷剂的状态进行控制。 此外,一种用于控制电动压缩机的方法包括:步骤(ST10),用于在接通电动压缩机的电源之后相对于转子执行位置对准; 执行用于确定制冷剂是相对于转子的位置对准之后液体状态还是气体状态的制冷剂状态确定步骤(ST20) 步骤(ST30),用于根据制冷剂的状态对电动压缩机施加电力来对制冷剂进行预热; 以及用于在预热之后将电动压缩机控制到正常工作状态的步骤(ST40)。