An extremely useful rotating tool is provided that can prevent rattling caused by a clearance between a machine tool and a machine tool retaining hole while bringing the axial center position of the machine tool and the axial center position of the machine tool retaining hole as close together as po
An extremely useful rotating tool is provided that can prevent rattling caused by a clearance between a machine tool and a machine tool retaining hole while bringing the axial center position of the machine tool and the axial center position of the machine tool retaining hole as close together as possible. The present invention is a rotating tool having a rotating main shaft (4), and the rotating main shaft (4) is provided with a machine tool retaining hole (3) having a cross-sectional shape that substantially matches a base part (2) of a driver bit, drill bit, or other machine tool (1) having a polygonal cross-sectional shape that is inserted into the machine tool retaining hole (3), wherein the rotating tool rotates the machine tool (1) inserted in the machine tool retaining hole (3) by rotating the rotating main shaft (4) and performs work. A pushing mechanism is provided for rotating the machine tool (1) in a prescribed direction and twisting and pushing the machine tool (1) against an internal surface of the machine tool retaining hole (3).
대표청구항▼
The invention claimed is: 1. A rotating tool having a rotating main shaft, in which the rotating main shaft is provided with a machine tool retaining hole having a cross-sectional shape that substantially matches a base part of a driver bit, drill bit, or other machine tool having a polygonal cross
The invention claimed is: 1. A rotating tool having a rotating main shaft, in which the rotating main shaft is provided with a machine tool retaining hole having a cross-sectional shape that substantially matches a base part of a driver bit, drill bit, or other machine tool having a polygonal cross-sectional shape that is inserted into the machine tool retaining hole, wherein the rotating tool rotates said machine tool inserted in the machine tool retaining hole by rotating said rotating main shaft and performs work; said rotating tool characterized in that a pushing mechanism is provided for rotating the machine tool with respect to the machine tool retaining hole so that the machine tool is rotationally offset from the machine tool retaining hole as viewed in cross-section while an axial center of the machine tool and an axial center of the machine tool retaining hole are aligned with each other, and for twisting and pushing the machine tool against an internal surface of said machine tool retaining hole when the machine tool is inserted in the machine tool retaining hole. 2. The rotating tool according to claim 1, characterized in that a sliding tube is provided to said machine tool retaining hole; and the sliding tube allows said machine tool to be mounted in said machine tool retaining hole, the pushing mechanism to be operated so as to twist and push the machine tool against the internal surface of the machine tool retaining hole through sliding of the sliding tube. 3. The rotating tool according to claim 2, characterized in that the sliding of said sliding tube is a single sliding movement of the sliding tube. 4. The rotating tool according to claim 1, characterized in that a sliding tube is provided to said machine tool retaining hole; and the sliding tube is configured so that the machine tool is retained in the machine tool retaining hole, said pushing mechanism is operated, the machine tool is rotated in a prescribed direction, and retaining of the machine tool and twisting and pushing of the machine tool against the internal surface of the machine tool retaining hole are accomplished when the sliding tube is slid, said machine tool is inserted into said machine tool retaining hole, and the sliding tube is moved back. 5. The rotating tool according to claim 1, characterized in that a locking groove is provided to a base part of said machine tool; and a locking body for locking in said locking groove is provided to said machine tool retaining hole. 6. The rotating tool according to claim 5, characterized in that said locking body is disposed in the locking groove; and said machine tool is rotated in a prescribed direction by said pushing mechanism. 7. The rotating tool according to any of claims 1 through 6, characterized in that said pushing mechanism is configured so as to twist and push said machine tool against the internal surface of said machine tool retaining hole when an operation is performed for attaching said machine tool, or release the twisting and pushing when an operation is performed for detaching said machine tool. 8. The rotating tool according to claim 7, characterized in that a sliding tube that is urged toward a proximal end or toward a distal end is fitted to a distal end part of said machine tool retaining hole; and said pushing mechanism is configured so that the twisting and pushing of said machine tool against the internal surface of said machine tool retaining hole is released by pulling of the sliding tube to the distal end or the proximal end against an urging force, and said machine tool is twisted and pushed against the internal surface of said machine tool retaining hole by a movement of said sliding tube back towards an opposite side by the urging force. 9. The rotating tool according to claim 8, characterized in that said locking body is placed in said locking groove when said machine tool is twisted and pushed against the internal surface of said machine tool retaining hole. 10. The rotating tool according to claim 9, characterized in that a peripheral wall of said machine tool retaining hole is provided with a protruding/retreating body for protruding from and retreating into the peripheral wall; said protruding/retreating body is pushed by a base part of the machine tool inserted in said machine tool retaining hole, and can retreat into the peripheral wall of the machine tool retaining hole in a state in which said sliding tube is pulled against an urging force towards a distal end or a proximal end; and said protruding/retreating body protrudes from the peripheral wall of said machine tool retaining hole, and twists and pushes a base part of said machine tool against the internal surface of said machine tool retaining hole in a state in which said sliding tube is moved back by the urging force towards the opposite side. 11. The rotating tool according to claim 10, characterized in that said protruding/retreating body is provided in a position facing a peripheral wall of said machine tool retaining hole. 12. The rotating tool according to claim 10, characterized in that said protruding/retreating body is a spherical body. 13. The rotating tool according to claim 11, characterized in that said protruding/retreating body is a spherical body. 14. The rotating tool according to claim 1, characterized in that a rotating body in which an insertion passage hole communicated with said machine tool retaining hole is formed is provided to a distal end part of said machine tool retaining hole; and the rotating body is provided with a rotational urging mechanism for rotating the insertion passage hole and a machine tool inserted in said machine tool retaining hole in a prescribed direction, and twisting and pushing the machine tool against the internal surface of said machine tool retaining hole. 15. The rotating tool according to claim 14, characterized in that said insertion passage hole is provided so as to be offset a prescribed angle in relation to said machine tool retaining hole as viewed from the front; and the insertion passage hole is moved back by a rotational urging force when the insertion passage hole is rotated into alignment with the machine tool retaining hole. 16. The rotating tool according to claim 14, characterized in that a sliding tube that is urged toward a proximal end or toward a distal end is fitted to a distal end part of said machine tool retaining hole; and said rotational urging mechanism is configured so that said machine tool is not rotationally urged in a prescribed direction in a state in which said sliding tube is pulled to the distal end or the proximal end against an urging force, and said machine tool is rotated in the prescribed direction and twisted and pushed against the internal surface of said machine tool retaining hole in a state in which said sliding tube is moved back towards an opposite side by the urging force. 17. The rotating tool according to any of claims 14 through 16, characterized in that a locking groove is provided to a base part of said machine tool, and a locking body for locking in said locking groove is provided to said machine tool retaining hole. 18. The rotating tool according to claim 17, characterized in that said locking body is disposed in the locking groove; and said machine tool is rotated in a prescribed direction by said rotational urging mechanism. 19. A rotating tool for rotating a machine tool inserted in a machine tool retaining hole and performing work by rotating a rotating main shaft, wherein the rotating tool has a rotating main shaft; a driver bit, drill bit, or other machine tool is inserted in the rotating main shaft; and a machine tool retaining hole having a cross-sectional shape that substantially matches a polygonal cross-sectional-shaped base part of the machine tool is provided; said rotating tool characterized in that a pushing mechanism for pushing in a state facing the vicinity of an angled part of said machine tool inserted in said machine tool retaining hole is provided to said rotating main shaft; the pushing mechanism is configured so as to push in a state facing the vicinity of the angled part of said machine tool and rotate said machine tool, and twist and push the machine tool against an internal surface of said machine tool retaining hole so that the machine tool is rotationally offset from the machine tool retaining hole as viewed in cross-section while an axial center of the machine tool and an axial center of the machine tool retaining hole are aligned with each other; a locking groove is provided to said base part of said machine tool; locking bodies for locking in said locking groove and retaining said machine tool are provided to said machine tool retaining hole; a sliding tube that is urged towards a proximal end or a distal end is provided to said machine tool retaining hole; retention of the machine tool by said locking bodies is released, and twisting and pushing of said machine tool against the internal surface of said machine tool retaining hole by said pushing mechanism is released when the sliding tube is pulled towards the distal end or the proximal end against an urging force; and said locking bodies are placed in said locking groove, said machine tool is retained, and the machine tool is twisted and pushed against the internal surface of said machine tool retaining hole by said pushing mechanism when said sliding tube is moved back towards an opposite side by the urging force. 20. A rotating tool for rotating a machine tool inserted in a machine tool retaining hole and performing work by rotating a rotating main shaft, wherein the rotating tool has a rotating main shaft; a driver bit, drill bit, or other machine tool is inserted in the rotating main shaft; and a machine tool retaining hole having a cross-sectional shape that substantially matches a polygonal cross-sectional-shaped base part of the machine tool is provided; said rotating tool characterized in that a pushing mechanism for pushing in a state facing the vicinity of an angled part of said machine tool inserted in said machine tool retaining hole is provided to said rotating main shaft; the pushing mechanism is configured so as to push in a state facing the vicinity of the angled part of said machine tool and rotate said machine tool, and twist and push the machine tool against an internal surface of said machine tool retaining hole so that the machine tool is rotationally offset from the machine tool retaining hole as viewed in cross-section while an axial center of the machine tool and an axial center of the machine tool retaining hole are aligned with each other; a locking groove is provided to said base part of said machine tool; locking bodies for locking in said locking groove and retaining said machine tool are provided to said machine tool retaining hole; a sliding tube that is urged towards a proximal end or a distal end is provided to said machine tool retaining hole; twisting and pushing of said machine tool against the internal surface of said machine tool retaining hole by said pushing mechanism is released when the sliding tube is pulled towards the distal end or the proximal end against an urging force; and the machine tool is twisted and pushed against the internal surface of said machine tool retaining hole by said pushing mechanism when said sliding tube is moved back towards an opposite side by the urging force.
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이 특허에 인용된 특허 (21)
Peters, Michael P.; Ervin, Jennifer R.; Bailey, Timothy B., Bit holder.
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