会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • 압축기의 베인 구조
    • 압축기의베인구조
    • KR100438959B1
    • 2004-07-03
    • KR1020010087402
    • 2001-12-28
    • 주식회사 엘지이아이
    • 이창수
    • F04C29/00
    • F04C18/3564F01C21/0809F04C23/008F04C2230/00F04C2270/12F05C2253/04
    • A vane of a compressor which is manufactured by inserting fiber in resin or a metallic vane preform performs a linear reciprocating movement together with revolving rotation of a rolling piston being inserted in a vane slot of a cylinder (40) can prevent damage of the vane and parts which perform relative motion with the vane, improve reliability by reducing vibration noise, as abrasion resistance and vibration absorbency of the vane which divides a compression space (P) of the cylinder (40) into a suction region and a compression region are improved. Also, as the weight is lightened, the linear movement can be smoothly done and input power source can be reduced.
    • 通过将纤维插入树脂或金属叶片预制件而制造的压缩机的叶片与插入到气缸40的叶片槽中的旋转活塞的旋转一起进行线性往复运动可防止叶片的损坏, 因为将缸体(40)的压缩空间(P)划分为吸入区域和压缩区域的叶片的耐磨损性和吸振性提高,所以与叶片进行相对运动的部件,通过减少振动噪声来提高可靠性。 而且,随着重量的减轻,线性移动可以平稳完成,输入电源可以减少。
    • 4. 发明公开
    • 스크롤 로터의 금형 및 제조방법
    • 滚动转子模具及其制造方法
    • KR1020130122156A
    • 2013-11-07
    • KR1020120045263
    • 2012-04-30
    • 한국생산기술연구원
    • 이근안이상목박훈재김응주정기호최호준
    • B21J13/02B21K1/76
    • B21J9/02B21C23/211B21C25/02B21J13/02B21K1/36B21K3/00F04C2230/00Y10T29/4924
    • The present invention relates to a mold of scroll rotors and a manufacturing method thereof, and more specifically to a mold of scroll motors and a manufacturing method thereof, capable of adjusting land sections for speed control of material flow. According to the present invention, a mold of scroll motors is provided, being characterized as a mold for forging by comprising; a die with formation of a forming space inside provided with an extrusion part prepared with a spiral form of extrusion path corresponding to a lap part provided for the scroll motor in a lower part; and a punch connected with the die to allow sliding move in upward/downward directions by adhering to the inner periphery face of the forming space with a lower part consisting of a shape corresponding to an upper face of a flange part of the scroll motor as well as a boss part, while the extrusion part is provided with a land section in direct contact with the extruded material and a length of the land section is characterized by being variable along a spiral direction.
    • 涡旋转子的模具及其制造方法技术领域本发明涉及一种涡旋式转子的模具及其制造方法,更具体地说涉及一种能够调节用于物料流量的速度控制的陆部区域的涡旋式电动机的模具及其制造方法。 根据本发明,提供了一种涡旋式电动机的模具,其特征在于,包括: 形成有形成空间的模具设置有挤压部件,所述挤压部件具有螺旋形挤出路径,该螺旋形挤出路径对应于在下部设置用于涡旋马达的搭接部分; 以及与模具连接的冲头,以允许通过与形成空间的内周面粘合的下部由与涡旋马达的凸缘部的上表面对应的形状的下部而在向上/向下方向上滑动 作为凸台部,当挤出部设置有与挤出材料直接接触的陆部区域时,陆部的长度的特征在于沿着螺旋方向是可变的。
    • 8. 发明授权
    • 스크롤 로터의 금형 및 제조방법
    • 滚动转子模具及其制造方法
    • KR101349705B1
    • 2014-01-15
    • KR1020120045263
    • 2012-04-30
    • 한국생산기술연구원
    • 이근안이상목박훈재김응주정기호최호준
    • B21J13/02B21K1/76
    • B21J9/02B21C23/211B21C25/02B21J13/02B21K1/36B21K3/00F04C2230/00Y10T29/4924
    • 본 발명은 스크롤 로터의 금형 및 제조방법에 관한 것으로, 특히 랜드구간를 조절하여 소재흐름의 속도제어가 가능한 스크롤 로터의 금형 및 제조방법에 관한 것이다. 본 발명에 따르면, 스크롤 로터 단조용 금형에 있어서, 내부에 성형공간이 형성되고, 하부에는 상기 스크롤 로터에 구비되는 랩부에 대응하는 나선형태의 압출통로가 마련된 압출부을 구비하는 다이; 및 상기 성형공간의 내주면과 밀착하여 상하방향으로 미끄럼 이동가능 하도록 다이와 연결되고, 하부는 상기스크롤 로터의 플랜지부의 상면 및 보스부와 대응되는 형상으로 이루어진 펀치를 포함하고, 상기 압출통로는 압출소재와 직접 접촉하는 랜드구간을 구비하며, 상기 랜드구간의 길이는 나선방향을 따라 가변되는 것을 특징으로 하는 스크롤 로터의 금형이 제공된다.
    • 一种用于锻造能够通过调节陆部来控制材料流速的涡旋转子的模具,其应用模制装置以及用于制造模具的方法。 在模具中,模具包括其中具有模制空间的挤出单元和设置在其下部中的螺旋形挤出通道,以对应于设置在涡旋转子中的包裹部分。 冲模与模具连接以与模制空间的内周紧密接触并且能够上下滑动。 下部具有对应于涡旋转子的凸缘部的上表面的形状和凸台部。 挤压通道具有与挤出材料直接接触的平台部分。 陆地段的长度沿螺旋方向变化。
    • 9. 发明公开
    • 압축기의 베인 구조
    • 压缩机叶片结构
    • KR1020030057030A
    • 2003-07-04
    • KR1020010087402
    • 2001-12-28
    • 주식회사 엘지이아이
    • 이창수
    • F04C29/00
    • F04C18/3564F01C21/0809F04C23/008F04C2230/00F04C2270/12F05C2253/04
    • PURPOSE: A structure of a vane of a compressor is provided to improve vibration absorption performance and abrasion resistance quality. CONSTITUTION: A structure includes a vane substrate(121) inserted to a vane slot(41) of a cylinder having a compression space(P), contacting with a rolling piston(50) placed in the compression space of the cylinder on a line to linearly reciprocate following rotation of the rolling piston to divide the compression space of the cylinder into a suction area(a) and a compression area(b), and having one side curved to contact with the rolling piston on a line; and fiber material(122) inserted in the vane substrate to improve performance of the vane substrate. The vane substrate is made of carbon. The fiber material is formed by fiber wires arranged in a direction of movement of the vane substrate. Intensity of abrasion between a vane(120) and components moving relatively to the vane is reduced, and generation of vibration due to the frictional contact is reduced thereby.
    • 目的:提供压缩机叶片的结构,以提高振动吸收性能和耐磨性。 结构:结构包括插入到具有压缩空间(P)的圆筒的叶片槽(41)上的叶片基板(121),与在圆柱体的压缩空间中的滚动活塞(50)相接触,该滚动活塞 在滚动活塞的旋转之后直线往复运动,以将气缸的压缩空间分成吸入区域(a)和压缩区域(b),并且一侧弯曲成与线路上的滚动活塞接触; 以及插入叶片基板中的纤维材料(122),以改善叶片基板的性能。 叶片基板由碳制成。 纤维材料由沿着叶片基板的移动方向布置的纤维线形成。 叶片(120)和相对于叶片移动的部件之间的磨损强度降低,由此摩擦接触产生的振动减小。