重型回转工作台的复合增力夹紧机构的设计
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摘要
为了更好地解决重型回转工作台直线运动中滑座的夹紧问题,设计了一种新型楔形块与菱形块复合增力夹紧机构,其工作原理是依靠楔形块增力机构和菱形块增力机构产生的力夹紧滑座,并通过菱形块机构进行自锁。对菱形块增力机构和楔形块增力机构进行了受力分析和计算。经过生产实际的验证,有效解决了重型回转工作台滑座夹紧的可靠性问题,确保产品安全使用。
In order to better solve the clamping problem of the sliding seat in the linear motion of the heavy-duty rotary table,a new type of wedge-shaped and diamond-shaped composite force-increasing clamping mechanism was designed. Its working principle is to rely on the wedge-shaped block force-increasing mechanism and the diamond-shaped block increasing. The force generated by the force mechanism clamps the slide and is self-locked by the diamond block mechanism. The force analysis and calculation of the diamond block force increasing mechanism and the wedge block force increasing mechanism are performed in this paper. Through practical verification of production,the reliability of the clamping of the heavy-duty rotary table slide is effectively solved,and the safe use of the product is ensured.
In order to better solve the clamping problem of the sliding seat in the linear motion of the heavy-duty rotary table,a new type of wedge-shaped and diamond-shaped composite force-increasing clamping mechanism was designed. Its working principle is to rely on the wedge-shaped block force-increasing mechanism and the diamond-shaped block increasing. The force generated by the force mechanism clamps the slide and is self-locked by the diamond block mechanism. The force analysis and calculation of the diamond block force increasing mechanism and the wedge block force increasing mechanism are performed in this paper. Through practical verification of production,the reliability of the clamping of the heavy-duty rotary table slide is effectively solved,and the safe use of the product is ensured.
引文
[1]翟耀先.重型数控回转工作台及其静压导轨设计研究[D].长沙:湖南大学,2016.
[2]现代实用机床设计手册编委会.现代实用机床设计手册(上册)[M].北京:机械工业出版社,2006.
[3]吕光斌.回转台回转斜面夹紧装置[J].活力,2011(8):39.
[4]汪雪瑶,王洪才,马忠山,等.一种新型附件自动夹紧机构的设计[J].制造技术与机床,2001(10):13.
[2]现代实用机床设计手册编委会.现代实用机床设计手册(上册)[M].北京:机械工业出版社,2006.
[3]吕光斌.回转台回转斜面夹紧装置[J].活力,2011(8):39.
[4]汪雪瑶,王洪才,马忠山,等.一种新型附件自动夹紧机构的设计[J].制造技术与机床,2001(10):13.