Claims
- 1. A screwdriver comprising a mandrel elongated along and rotatable about a longitudinal mandrel axis, the mandrel having at a forward end a socket extending from socket opening at the forward end of the mandrel rearwardly along the mandrel axis to rearward end characterized by:
- the socket having a forward section polygonally shaped in cross-section, an enlarged diameter portion spaced rearwardly from the forward section, and a forwardly and axially directed socket stop surface spaced rearwardly from the enlarged diameter portion,
- a replaceable bit extending along a bit axis from a forward bit end to a rearward bit end, generally coaxially removably received in the socket,
- the bit having a polygonal body portion polygonally shaped in cross-section complementary to the polygonally shaped forward section of the socket for transfer of rotational forces from the socket to the bit, a rearward bit portion rearward of the polygonal body portion, a rearwardly and axially directed bit stop surface spaced rearwardly from the rearward bit portion, and an inwardly extending annular groove about the bit defining a reduced diameter portion intermediate the polygonal body portion and the rearward bit portion,
- wherein with the bit urged fully rearwardly into the socket:
- (a) the rearward bit portion locates within the enlarged ditmeter portion for lateral movement therein;
- (b) the bit stop surface engages the socket stop surface to transfer between the bit and the mandrel substantially all compressive forces acting generally parallel to the mandrel axis between the bit and the mandrel yet permitting lateral sliding movement of the bit stop surface on the socket stop surface relative to the mandrel axis in response to compressive forces acting generally normal to the mandrel axis between the bit and mandrel;
- (c) the polygonal body portion locates within the forward section for lateral movement therein with engagement between surfaces of the polygonal body portion and the forward section of the socket preventing inclination of the bit axis relative the mandrel axis beyond a maximum angle of inclination in any direction;
- (d) the forward end of the bit extends from the socket opening for driving a screw into a work piece;
- (e) other than engagement between the socket stop surface and the bit stop surface, the rearward bit portion is spaced laterally out of contact with the socket rearward of the reduced diameter portion of the bit; and
- (f) the bit stop surface is laterally slidable on the socket stop surface from any position thereon, in response to compressive forces acting generally normal to the mandrel axis between the bit and the mandrel, to positions in which the bit axis assumes the maximum angle of orientation in any direction and contact between the polygonal body portion and the forward section of the socket transfers therebetween substantially all compressive forces between the bit and the mandrel acting generally normal to the mandrel axis.
- 2. A screwdriver as claimed in claim 1 wherein the socket stop surface is disposed at an angle relative the mandrel axis with the socket stop surface extending radially inwardly towards the mandrel axis and rearwardly towards the rearward end of the socket.
- 3. A screwdriver as claimed in claim 2 further characterized by the body portion of the bit and the forward section of the socket engaging each other for transfer of rotational forces there between such that rotational forces do not pass axially through the reduced diameter portion of the bit.
- 4. A screwdriver as claimed in claim 1 wherein the socket stop surface is frustoconical about the mandrel axis with the socket stop surface extending radially inwardly towards the mandrel axis from the enlarged diameter portion and rearwardly towards the rearward end of the socket.
- 5. A screwdriver as claimed in claim 4 wherein the bit stop surface is frustoconical about the bit axis with the bit stop surface extending radially inwardly towards the bit axis and rearwardly towards the rearward bit end, the bit stop surface being complementary to the socket stop surface to facilitate relative lateral sliding movement of the bit stop surface relative the socket stop surface.
- 6. A screwdriver as claimed in claim 1 including a locking member carried by one of the mandrel and the bit located partially in the groove and partially in the enlarged diameter portion to retain the bit in the socket against removal.
- 7. A screwdriver as claimed in claim 6 wherein the locking member is resiliently deformable and is located partially in the groove and partially in the enlarged diameter portion to retain the bit in the socket against removal under axially directed forces less than a required force.
- 8. A screwdriver as claimed in claim 7 further characterized by the locking member comprising a split-ring being carried by and removable with the bit.
- 9. A screwdriver as claimed in claim 1 further characterized by the bit and socket sized to permit movement of the bit in the socket between a first orientation where the bit axis is aligned with the mandrel axis, and a plurality of second orientations where the bit axis is inclined at an angle of at least 2.degree. and not more than 10.degree. relative to the mandrel axis and further inclination of the bit axis relative to the mandrel axis is prevented by engagement between surfaces of the polygonal body portion and the forward section of the socket.
- 10. A screwdriver as claimed in claim 1 further characterized by the body portion of the bit and the forward section of the socket engaging each other for transfer of rotational forces therebetween such that rotational forces do not pass axially through the reduced diameter portion of the bit.
- 11. A screwdriver as claimed in claim 1 further characterized by the socket including an axially extending reduced diameter bore extending rearwardly from the socket stop surface of the socket,
- a slot extending radially inwardly from an opening in one side of the mandrel into the reduced diameter bore,
- the slot sized to permit insertion of a tool there through for applying an axially directed force on the bit to remove the bit.
- 12. A screwdriver as claimed in claim 11 further characterized by the slot means being located rearwardly spaced from the socket stop surface and opens axially into the socket.
- 13. A screwdriver comprising a mandrel elongated along and rotatable about a longitudinal mandrel axis, the mandrel having at a forward end a socket extending from a socket opening at the forward end of the mandrel rearwardly along the mandrel axis to a rearward end characterized by:
- the socket having a forward section polygonally shaped in cross-section, an enlarged diameter portion spaced rearwardly from the forward section, and a forwardly and axially directed socket stop surface spaced rearwardly from the enlarged diameter portion,
- a replaceable bit extending along a bit axis front a forward bit end to a rearward bit end, generally coaxially removably received in the socket,
- the bit having a polygonal body portion polygonally shaped in cross-section complementary to the polygonally shaped forward section of the socket for transfer of rotational forces from the socket to the bit, a rearward bit portion rearward of the polygonal body portion, a rearwardly and axially directed bit stop surface spaced rearwardly from the rearward bit portion, and an inwardly extending annular groove about the bit defining a reduced diameter portion intermediate the polygonal body portion and the rearward bit portion,
- wherein with the bit urged fully rearwardly into the socket:
- (a) the rearward bit portion locates within the enlarged diameter portion for lateral movement therein;
- (b) the bit stop surface engages the socket stop surface to transfer between the bit and the mandrel substantially all compressive forces acting generally parallel to the mandrel axis between the bit and the mandrel yet permitting lateral sliding movement of the bit stop surface on the socket stop surface relative to the mandrel axis;
- (c) the polygonal body portion locates within the forward section for lateral movement therein with engagement between surfaces of the polygonal body portion and the forward section of the socket preventing inclination of the bit axis relative the mandrel axis beyond a maximum angle of inclination in any direction and transferring between surfaces of the polygonal body portion and the forward section of the socket substantially all compressive forces between the bit and the mandrel acting generally normal to the mandrel axis,
- (d) the forward end of the bit extends from the socket opening for driving a screw into a work piece;
- (e) other than engagement between the socket stop surface and the bit stop surface, the rearward bit portion is spaced laterally out of contact with the socket rearward of the reduced diameter portion of the bit; and
- (f) the bit stop surface laterally slidable on the socket stop surface to positions in which the polygonal body portion and the forward section of the socket engage and prevent inclination of the bit axis relative the mandrel axis beyond the maximum angle of inclination in any direction.
- 14. A screwdriver as claimed in claim 13 wherein the socket stop surface is disposed at an angle relative the mandrel axis with the socket stop surface extending radially inwardly towards the mandrel axis and rearward end of the socket.
- 15. A screwdriver as claimed in claim 13 wherein the socket stop surface is frustoconical about the mandrel axis with the socket stop surface extending radially inwardly towards the mandrel axis from the enlarged diameter portion and rearwardly towards the rearward end of the socket.
- 16. A screwdriver as claimed in claim 15 wherein the bit stop surface is frustoconical about the bit axis with the bit stop surface extending radially inwardly towards the bit axis and rearwardly towards the rearward bit end, the bit stop surface being complementary to the socket stop surface to facilitate relative lateral sliding movement of the bit stop surface relative the socket stop surface.
- 17. A screwdriver comprising a mandrel elongated along and rotatable about a longitudinal mandrel axis, the mandrel having at a forward end a socket extending from a socket opening at the forward end of the mandrel rearwardly along the mandrel axis to a rearward end characterized by:
- the socket having a forward section polygonally shaped in cross-section, an enlarged diameter portion spaced rearwardly from the forward section, and a forwardly and axially directed socket stop surface spaced rearwardly from the enlarged diameter portion,
- a replaceable bit extending along a bit axis from a forward bit end to a rearward bit end, generally coaxially removably received in the socket,
- the bit having a polygonal body portion polygonally shaped in cross-section complementary to the polygonally shaped forward section of the socket for transfer of rotational forces from the socket to the bit, a rearward bit portion rearward of the polygonal body portion, a rearwardly and axially directed bit stop surface spaced rearwardly from the rearward bit portion, and an inwardly extending annular groove about the bit defining a reduced diameter portion intermediate the polygonal body portion and the rearward bit portion,
- wherein with the bit urged fully rearwardly into the socket:
- (a) the rearward bit portion locates within the enlarged diameter portion for lateral movement therein;
- (b) the bit stop surface engages the socket stop surface to transfer between the bit and the mandrel substantially all compressive forces acting generally parallel to the mandrel axis between the bit and the mandrel yet permitting lateral sliding movement of the bit stop surface on the socket stop surface relative to the mandrel axis;
- (c) the polygonal body portion locates within the forward section for lateral movement therein with engagement between surfaces of the polygonal body portion and the forward section of the socket preventing inclination of the bit axis relative the mandrel axis beyond a maximum angle of inclination in any direction;
- (d) the forward end of the bit extends from the socket opening for driving a screw into a work piece;
- (e) other than engagement between the socket stop surface and the bit stop surface, the rearward bit portion is spaced laterally out of contact with the socket rearward of the reduced diameter portion of the bit; and
- (f) engagement between the bit stop surface and the socket stop surface facilitates lateral sliding movement of the bit stop surface on the socket stop surface such that compressive forces between the bit and the mandrel acting generally normal to the mandrel axis are substantially transferred forward of the reduced diameter portion between the polygonal body portion and the forward portion of the socket,
- wherein the socket stop surface is disposed at an angle relative the mandrel axis with the socket stop surface extending radially inwardly towards the mandrel axis and rearwardly towards the rearward end of the socket.
- 18. A screwdriver as claimed in claim 17 wherein the socket stop surface is frustoconical about the mandrel axis with the socket stop surface extending radially inwardly towards the mandrel axis from the enlarged diameter portion and rearwardly towards the rearward end of the socket.
- 19. A screwdriver as claimed in claim 18 wherein the bit stop surface is frustoconical about the bit axis with the bit stop surface extending radially inwardly towards the bit axis and rearwardly towards the rearward bit end, the bit stop surface being complementary to the socket stop surface to facilitate relative lateral sliding movement of the bit stop surface relative the socket stop surface.
- 20. A screwdriver as claimed in claim 19 further characterized by the body portion of the bit and the forward section of the socket engaging each other for transfer of rotational forces there between such that rotational forces do not pass axially through the reduced diameter portion of the bit.
Parent Case Info
This application is a continuation of U.S. patent application Ser. No. 08/225,949, filed Apr. 8, 1994 now U.S. Pat. No. 5,531,143 which is a continuation-in-part of U.S. patent application Ser. No. 044,956, filed Apr. 8, 1993 and issued as U.S. Pat. No. 5,351,586.
US Referenced Citations (5)
Foreign Referenced Citations (2)
Number |
Date |
Country |
308968 |
Mar 1989 |
EPX |
548615 |
Oct 1942 |
GBX |
Continuations (1)
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Number |
Date |
Country |
Parent |
225949 |
Apr 1994 |
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
044956 |
Apr 1993 |
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