Patent ID: 7175372

Claim:
A releasable arbor system for connecting an axially operating tool to a chucked arbor operationally rotating around a rotation axis, said arbor system comprising: a. an arbor including: i. an arbor flanging feature; ii. a first thread axially extending along said rotation axis; iii. a driving pin extending from said arbor flanging feature in an offset to said rotation axis; b. a clamp body of said axially operating tool, said clamp body including: i. a core; ii. a tool flanging feature correspondingly shaped to said arbor flanging feature and part of said core; iii. a pin hole for axially engaging with said driving pin; iv. a clamp face fabricated into said core opposite said tool flanging feature; v. a core shaft extending through said core axially along said rotation axis and aligned with said first thread; c. a tightening feature including: i. a second thread corresponding to said first thread; ii. a tightening face correspondingly shaped to said clamp face; wherein while at least one of said first thread and said second thread is extending through said core shaft and while said first thread and said second thread being in a tight-screwed interlocking a pressed contact is established between at least one of: I. said tool flanging feature and said arbor flanging feature and II. at least three of said pin hole and at least three of said driving pin; d. a circumferentially rigid snap feature having an engaging position and a releasing position, wherein at least during said tight-screwed interlocking said engaging position is established in which said snap feature is snap interlocking in a snap serration of said tightening feature such that said tightening feature is prevented at least from unscrewing said first thread, and wherein during said releasing position said snap feature disengages said snap serration for unscrewing said tightening feature from said first thread; and wherein said pressed contact provides a releasable fix that is axially, radially and circumferentially form fitting such that said tight-screwed interlocking remains substantially unaffected of an operational tilt torque and substantially unaffected by an operational load torque.