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. 发明公开
    • VERFAHREN ZUM HERSTELLEN VON FLACHLAGERSCHALEN
    • EP0954707A1
    • 1999-11-10
    • EP98905334.0
    • 1998-01-23
    • KS Gleitlager GmbH
    • KALDENHOFF, KurtMÄHRLEIN, MatthiasHOPPMANN, RalfHERMANNS, Hubert
    • B21K1B23P15F16C33
    • B23P15/003B21K1/00F16C33/14F16C2220/66F16C2220/82F16C2220/84F16C2223/04
    • A process is disclosed for manufacturing flat bearing shells. A strip of material (2) is cut into bearing shell sections (26), these sections are bent into a semicircular shape, and the outer and inner sides (88, 58), as well as the parting surfaces (52) of the thus obtained bearing shells are calibrated. An oil groove (14) is shaped on the inner side (58) from parting surface (52) to parting surface (52). For the oil groove to be more easily shaped with a less complex milling tool, the oil groove (14) is continuously shaped, in particular milled, broached or sandblasted in the strip of material (2) before the strip of material is cut into bearing shell sections (26), and a cutting die (6) which matches the cross-section profile of the strip of material (2) after the oil groove (14) is milled is used to cut the strip of material into bearing shell sections (26).
    • 公开了制造扁平轴承壳的方法。 将一条材料(2)切割成轴承壳体部分(26),这些部分弯曲成半圆形,并且外侧和内侧(88,58)以及由此分离的表面(52) 获得的轴承壳被校准。 在从分型面(52)到分型面(52)的内侧(58)上形成有油槽(14)。 为了更容易地用较不复杂的铣削工具成型油槽,油槽(14)在材料条被切割成轴承之前连续成型,特别是在材料条(2)中碾磨,拉拔或喷砂 壳体部分(26)和与在油槽(14)被铣削后的材料条(2)的横截面轮廓匹配的切割模(6)用于将材料条切割成轴承壳部分( 26)。
    • 2. 发明授权
    • GEBAUTE BUNDLAGERSCHALE
    • EP1181463B1
    • 2004-03-31
    • EP00907502.9
    • 2000-02-05
    • KS Gleitlager GmbH
    • BICKLE, WolfgangHAINKE, WernerKALDENHOFF, KurtRUDOLF, WernerSCHUBERT, Werner
    • F16C17/10
    • F16C43/02F16C17/10F16C2226/76F16C2300/02
    • The invention relates to an assembled flange-bearing shell, comprising a half-shell shaped radial bearing part (2) and an axial bearing part (4) which can be fixed on one side in the area of the axial front face of the radial bearing part, or comprising partial ring-wheel shaped axial bearing parts which can be fixed on both sides. Each axial bearing part (4) has retaining tongues (7, 8) located around its radius which project inwards. Said retaining tongues can be engaged in retaining recesses (10, 12) in the area of an axial rim section of the radial bearing part (2), whereby at least one of the retaining recesses (10, 12) is configured with an open edge in the axial direction. In order to simplify assembly, the flange-bearing shell is configured in such a way that two retaining tongues (7, 8) on both sides of the vertex (S) form an undercut (22) of the radial direction (6) which runs through the vertex (S) on the side facing said vertex (S). When the flange-bearing shell is assembled, this undercut is engaged from below by a clip (30) of the radial bearing part (2) which lies axially adjacent to each respective open-edged retaining recess (10, 12). Said clip is curved inwards in an axial direction from its extension along the periphery into the retaining recess (10, 12), in order to secure the axial bearing part (4) by this engagement against detachment in a radial direction, without becoming deformed during assembly.
    • 4. 发明公开
    • GEBAUTE BUNDLAGERSCHALE
    • 内置BUND轴承
    • EP1181463A1
    • 2002-02-27
    • EP00907502.9
    • 2000-02-05
    • KS Gleitlager GmbH
    • BICKLE, WolfgangHAINKE, WernerKALDENHOFF, KurtRUDOLF, WernerSCHUBERT, Werner
    • F16C17/10
    • F16C43/02F16C17/10F16C2226/76F16C2300/02
    • The invention relates to an assembled flange-bearing shell, comprising a half-shell shaped radial bearing part (2) and an axial bearing part (4) which can be fixed on one side in the area of the axial front face of the radial bearing part, or comprising partial ring-wheel shaped axial bearing parts which can be fixed on both sides. Each axial bearing part (4) has retaining tongues (7, 8) located around its radius which project inwards. Said retaining tongues can be engaged in retaining recesses (10, 12) in the area of an axial rim section of the radial bearing part (2), whereby at least one of the retaining recesses (10, 12) is configured with an open edge in the axial direction. In order to simplify assembly, the flange-bearing shell is configured in such a way that two retaining tongues (7, 8) on both sides of the vertex (S) form an undercut (22) of the radial direction (6) which runs through the vertex (S) on the side facing said vertex (S). When the flange-bearing shell is assembled, this undercut is engaged from below by a clip (30) of the radial bearing part (2) which lies axially adjacent to each respective open-edged retaining recess (10, 12). Said clip is curved inwards in an axial direction from its extension along the periphery into the retaining recess (10, 12), in order to secure the axial bearing part (4) by this engagement against detachment in a radial direction, without becoming deformed during assembly.