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    • 2. 发明申请
    • MACHINE FOR REGENERATION OF PNEUMATIC TYRES
    • 机动轮胎再生机
    • WO2010086260A1
    • 2010-08-05
    • PCT/EP2010/050601
    • 2010-01-20
    • CAPPUCCINI, Leonardo
    • CAPPUCCINI, Leonardo
    • B24B5/36B23D67/06B23D71/02
    • B24B5/366B23D71/025B29D30/54B29D2030/541
    • There is described a machine (1) for regeneration of pneumatic tyres (2) comprising a beading device (5) for axial locking of the pneumatic tyre to be regenerated in the direction of the revolving axis of the pneumatic tyre (2) which provides an untranslatable bead (6) and a translatable bead (7) in said direction, a work rasp (9) mounted on a spindle (25), inflation means (66) of the pneumatic tyre and a discharge cochlea (77). Said machine further comprises a roughing miller (8) suitable to prepare the pneumatic tyre to a subsequent finishing by means of the rasp (9), said miller (8) being mounted on the same spindle (25) of the rasp (9) and after it, and constituted of a monoblock (27) with discharge channels (28) for chips produced by inserts (29) with a curved profile (30) providing a plurality of planar blades (31) joined by discharge grooves (32) of the chips produced.
    • 描述了一种用于再生充气轮胎(2)的机器(1),该机器包括一个用于沿着充气轮胎(2)的旋转轴线的方向轴向锁定充气轮胎的滚珠装置(5),该充气轮胎提供 在所述方向上具有不可翻译的胎圈(6)和可平移的胎圈(7),安装在心轴(25)上的工作锉(9),所述充气轮胎的充气装置(66)和放电耳蜗(77)。 所述机器还包括一个适用于通过锉刀(9)准备充气轮胎以进行后续精加工的粗铣机(8),所述磨机(8)安装在锉刀(9)的同一转轴(25)上, 并且由具有用于具有弯曲轮廓(30)的插入件(29)制成的用于芯片的排出通道(28)的整体构件(27),所述弯曲轮廓(30)提供由多个平面叶片(31)连接的多个平面叶片(31) 芯片生产。
    • 3. 发明公开
    • A tire rasp blade
    • Reifenraspelblatt
    • EP2960346A1
    • 2015-12-30
    • EP14173620.7
    • 2014-06-24
    • B & J Rocket Sales AG
    • Andersen, Bent Toft
    • C21D9/22C21D9/24B23D71/02C21D1/42
    • C21D9/22B23D71/02B23D71/025C21D1/18C21D1/42C21D11/005Y02P10/253
    • In accordance with the invention, a method is provided for treating a shaped tire rasp blade for mounting on a rasp hub, said tire rasp blade comprising a blade body and blade teeth, wherein the method comprises an austenitising process for austenitising the main part of the tire rasp blade by heating it to an austenitisation temperature, a subsequent quenching process and finally a tempering process for tempering the tire rasp blade. The austenitising process is performed by using induction heating for heating of said tire rasp blade. Thereby, tests have surprisingly shown that the durability of a rasp blade is significantly increased by 30 - 50 %. This increase could be because induction heating is a very fast heating method (austenitisation temperature can be reached within 15 seconds), wherein energy is focused into the rasp blade, and the austenitisation temperature can be reached quite fast throughout the entire rasp blade.
    • 根据本发明,提供了一种用于处理成型轮胎锉刀以安装在锉刀轮毂上的方法,所述轮胎锉刀包括刀片主体和刀片齿,其中所述方法包括用于奥氏体化的主要部分的奥氏体化过程 通过将轮胎锉刀加热到奥氏体化温度,随后的淬火处理和最后的回火处理来回火轮胎锉刀。 通过使用感应加热来对所述轮胎锉刀进行加热来进行奥氏体化处理。 因此,测试令人惊讶地表明,锉刀的耐久性显着增加了30-50%。 这种增加可能是因为感应加热是非常快的加热方法(在15秒内达到奥氏体化温度),其中能量聚焦到锉刀中,并且在整个锉刀中可以相当快地达到奥氏体化温度。
    • 9. 发明申请
    • A TIRE RASP BLADE
    • 轮胎RASP刀片
    • WO2015197547A1
    • 2015-12-30
    • PCT/EP2015/063959
    • 2015-06-22
    • B & J ROCKET SALES AG
    • ANDERSEN, Bent Toft
    • C21D9/22C21D9/24B23D71/02C21D1/42C21D11/00
    • C21D9/22B23D71/02B23D71/025C21D1/18C21D1/42C21D11/005Y02P10/253
    • In accordance with the invention, a method is provided for treating a shaped tire rasp blade for mounting on a rasp hub, said tire rasp blade comprising a blade body and blade teeth, wherein the method comprises an austenitising process for austenitising the main part of the tire rasp blade by heating it to an austenitisation temperature, a subsequent quenching process and finally a tempering process for tempering the tire rasp blade. The austenitising process is performed by using induction heating for heating of said tire rasp blade. Thereby, tests have surprisingly shown that the durability of a rasp blade is significantly increased by 30 - 50 %. This increase could be because induction heating is a very fast heating method (austenitisation temperature can be reached within 15 seconds), wherein energy is focused into the rasp blade, and the austenitisation temperature can be reached quite fast throughout the entire rasp blade.
    • 根据本发明,提供了一种用于处理成形轮胎锉刀以安装在锉刀轮毂上的方法,所述轮胎锉刀包括刀片主体和刀片齿,其中所述方法包括用于奥氏体化的奥氏体化奥氏体化过程, 通过将轮胎锉刀加热到奥氏体化温度,随后的淬火处理和最后的回火处理来回火轮胎锉刀。 通过使用感应加热来对所述轮胎锉刀进行加热来进行奥氏体化处理。 因此,测试令人惊讶地表明,锉刀的耐久性显着提高了30-50%。 这种增加可能是因为感应加热是非常快速的加热方法(在15秒内达到奥氏体化温度),其中能量聚焦到锉刀中,并且在整个锉刀中可以相当快地达到奥氏体化温度。