Cranial drill
First Claim
1. An apparatus for drilling bone structure comprising:
- a generally cylindrical primary drill member having cutting surfaces at the distal end thereof and having a proximal end;
a generally cylindrical driver having a distal end disposed in confronting relationship with said drill member proximal end and having a proximal end;
a stem projecting from the proximal end of said driver and adapted for insertion into a drill chuck;
a clutch means including;
a cylindrical stem projecting axially from the proximal end of the primary drill member and having a diameter less than the diameter of the primary drill member, said stem including a bore extending generally radially completely therethrough;
said driver including an axial bore extending into the distal end thereof a distance less than the height of said drill member stem and adapted to receive said drill member stem with a clearance fit, said bore leaving an annular flange surrounding the distal end of said driver;
a slot extending radially completely across said annular flange in communication with said axial bore;
a pin extending completely through said drill member stem and engaging the driver transverse slot on both sides of said drill member stem;
a generally annular drill body slidably and rotatably receiving said drill member and said driver, said drill body wall having diametrically opposed openings extending therethrough and wherein the periphery of said openings in said drill body wall forms a cam surface having a generally triangular shape, with the base of said triangular cam surface aligned along the circumference of said drill body, and wherein the sides of said triangular cam surface are aligned at an angle to the axis of the drill body;
said pin extending from said drill member stem bore into said triangular openings and adapted to engage the peripheral cam surfaces thereof;
the axial height of said triangular cam limiting the throw distance of said clutch;
the interaction of said pin with the sides of the triangular shaped cam surface providing a means for directing a component of the force between the cam surface and the pin along the axis of the primary drill to urge said drill member away from said driver to accelerate the decoupling of said drill member from said driver to more quickly disengage said clutch means and thereby decrease the possibility of said drill member injuring tissue or organs disposed about the inside of the bone structure;
said clutch means further including a coaxial pilot bore extending into said driver from the distal end thereof and having a diameter less than the diameter of said drill member stem;
a compression spring bottomed on said pilot hole and bearing against said drill member stem for urging said driver and said drill member apart so as to provide a resistance force to the engagement of said clutch means which may be overcome when the drill member is placed against the bone structure and drilling begins;
said compression spring assisting and decoupling said clutch means when said drill member drills through the bone structure.
3 Assignments
0 Petitions
Accused Products
Abstract
A completely disposable, permanently assembled drill for perforating bone structures, which includes a generally annular drill body. A primary drill member is slidably and rotatably received in the distal end of the drill body. A driver is slidably and rotatably received in the proximal end of said drill body. A pin and slot-type spring biased clutch is disposed on the confronting surfaces of the drill member and driver. The pin of the clutch projects through the triangular openings and the sidewall of the drill body so as to limit the throw of the clutch and to link the drill body and drill member together. The interaction of the pin against the triangular side of the slot in the drill body produces a component of force which tends to urge the clutch apart. When the drill is placed against the bone structure with a force sufficient to overcome the spring bias, the clutch will engage and the driver and drill member and the drill body will rotate together. The counterbore on the drill body provides a support for the drill mechanism so that the drill member may release when it penetrates the bone structure without having the remainder of the drill move in the direction toward the cranial cavity. The sleeve holds the drill body and driver together and is made of a material that degrades when subjected to sterilization.
73 Citations
13 Claims
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1. An apparatus for drilling bone structure comprising:
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a generally cylindrical primary drill member having cutting surfaces at the distal end thereof and having a proximal end; a generally cylindrical driver having a distal end disposed in confronting relationship with said drill member proximal end and having a proximal end; a stem projecting from the proximal end of said driver and adapted for insertion into a drill chuck; a clutch means including; a cylindrical stem projecting axially from the proximal end of the primary drill member and having a diameter less than the diameter of the primary drill member, said stem including a bore extending generally radially completely therethrough; said driver including an axial bore extending into the distal end thereof a distance less than the height of said drill member stem and adapted to receive said drill member stem with a clearance fit, said bore leaving an annular flange surrounding the distal end of said driver; a slot extending radially completely across said annular flange in communication with said axial bore; a pin extending completely through said drill member stem and engaging the driver transverse slot on both sides of said drill member stem; a generally annular drill body slidably and rotatably receiving said drill member and said driver, said drill body wall having diametrically opposed openings extending therethrough and wherein the periphery of said openings in said drill body wall forms a cam surface having a generally triangular shape, with the base of said triangular cam surface aligned along the circumference of said drill body, and wherein the sides of said triangular cam surface are aligned at an angle to the axis of the drill body; said pin extending from said drill member stem bore into said triangular openings and adapted to engage the peripheral cam surfaces thereof; the axial height of said triangular cam limiting the throw distance of said clutch; the interaction of said pin with the sides of the triangular shaped cam surface providing a means for directing a component of the force between the cam surface and the pin along the axis of the primary drill to urge said drill member away from said driver to accelerate the decoupling of said drill member from said driver to more quickly disengage said clutch means and thereby decrease the possibility of said drill member injuring tissue or organs disposed about the inside of the bone structure; said clutch means further including a coaxial pilot bore extending into said driver from the distal end thereof and having a diameter less than the diameter of said drill member stem; a compression spring bottomed on said pilot hole and bearing against said drill member stem for urging said driver and said drill member apart so as to provide a resistance force to the engagement of said clutch means which may be overcome when the drill member is placed against the bone structure and drilling begins; said compression spring assisting and decoupling said clutch means when said drill member drills through the bone structure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An apparatus for drilling bone structures comprising:
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a generally annular drill body having generally triangular shaped, diametrically opposed openings extending therethrough, the bases of said triangular shaped openings being aligned generally circumferentially about said drill body and the sides of said openings being aligned at an angle to the axis of said drill body, the proximal end of said drill body including a bearing surface; a generally cylindrical primary drill member freely, slidably and rotationally disposed within said drill body and having cutting surfaces on the distal end thereof; a generally cylindrical drill driver rotatably and slidably disposed into the proximal end of said drill body and having a stem projecting from the proximal end thereof adaptable for insertion into a drill chuck; a generally radially extending flange about the proximal end of said driver facing said drill body bearing surface for limiting the extent which said driver extends into said drill body; a slot and pin-type clutch mechanism cooperatively disposed on the opposing proximal end of said drill member and said distal end of said driver; the pin of said pin and slot clutch extending through the openings in said drill body wall and interacting with the base of said triangular slot to limit the forward movement of the drill member when the clutch is decoupled and interacting with the side of said triangular opening when the clutch is coupled so that when the drill member penetrates said bone structure, the component of force between the pin and the openings tends to accelerate the coupling of the clutch; said clutch means further including a compression spring disposed between confronting surfaces of said drill member and said driver for urging the two apart and providing a resistance force which is overcome when the drill member is pushed against the bone structure and drilling begins. - View Dependent Claims (12, 13)
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Specification