A router depth adjustment mechanism for minimizing rapid course depth adjustment for standard and plunge routers. Routers with rapid or course adjustment mechanisms may permit a router motor housing to drop suddenly, if the user is inattentive. Sudden adjustments may result in damage to the router a
A router depth adjustment mechanism for minimizing rapid course depth adjustment for standard and plunge routers. Routers with rapid or course adjustment mechanisms may permit a router motor housing to drop suddenly, if the user is inattentive. Sudden adjustments may result in damage to the router and potentially contact the user. The mechanism of the present invention includes a threaded shaft and a biased thread engaging member which may be disengaged for rapid adjustment. A restraining device and/or a break may be included to minimize the rate of change.
대표청구항▼
What is claimed is: 1. A router adjustment device comprising: a base for supporting a router; a motor housing adjustably secured by the base for movement along an axis to a position relative to the base; a frictional zone and a slidable zone substantially longitudinally disposed on one of the motor
What is claimed is: 1. A router adjustment device comprising: a base for supporting a router; a motor housing adjustably secured by the base for movement along an axis to a position relative to the base; a frictional zone and a slidable zone substantially longitudinally disposed on one of the motor housing and the base; and an adjustment mechanism for adjusting the position of the housing relative to the base, the adjustment mechanism including: a shaft connected to the motor housing for rotation about an axis, having a threaded portion, and a thread engaging member connected to the base, capable of selectively engaging with the threaded portion; wherein the frictional zone has a greater coefficient of friction than the slidable zone to at least partially resist the movement of the motor housing with respect to the base, and wherein the frictional zone and the slidable zone are separate and apart from the adjustment mechanism, the shaft, and the thread engaging member. 2. The router of claim 1, wherein the frictional zone comprises brass. 3. The router of claim 1, wherein the frictional zone comprises at least one of a ceramic, a polymer, and an elastomeric material. 4. The router of claim 1, wherein the static coefficient of friction between the frictional zone and at least one of the base and the motor housing is in the range of between approximately 0.15μ and 0.58μ. 5. The router of claim 1, wherein the motor housing is at least partially formed from an elastomeric material. 6. The router of claim 1, wherein the motor housing includes a grasping zone for aiding grasping by a user. 7. The router of claim 1, wherein the motor housing is contoured to fit at least a portion of a user's hand. 8. A router adjustment device comprising: a base for supporting a router; a motor housing adjustable secured by the base for movement along an axis to a position relative to the base; a first frictional zone disposed substantially longitudinally on the motor housing; a first slidable zone disposed adjacent to the first frictional zone on the motor housing; a second frictional zone disposed substantially longitudinally on the base generally opposing the first frictional zone; a second slidable zone disposed adjacent to the second frictional zone on the base generally opposing the first slidable zone; and an adjustment mechanism for adjusting the position of the housing relative to the base, the adjustment mechanism including a shaft connected to the motor housing for rotation about an axis, having a threaded portion, and a thread engaging member connected to the base, capable of selectively engaging with the threaded portion; wherein the first and second frictional zones have a greater coefficient of friction than the first and second slidable zones to at least partially resist the movement of the motor housing with respect to the base, and wherein the first and second frictional zones and the first and second slidable zones are separate and apart from the adjustment mechanism, the shaft, and the thread engaging member. 9. The router adjustment device of claim 8, wherein at least one of the first frictional zone and the second frictional zone comprises brass. 10. The router adjustment device of claim 8, wherein at least one of the first frictional zone and the second frictional zone comprises at least one of a ceramic, a polymer, and an elastomeric material. 11. The router adjustment device of claim 8, wherein the static coefficient of friction between the first frictional zone and second frictional zone is in the range of between approximately 0.15μ and 0.58μ. 12. The router adjustment device of claim 8, wherein the motor housing is at least partially formed of an elastomeric material. 13. The router adjustment device of claim 8, wherein the motor housing includes a grasping zone for aiding grasping by a user. 14. The router adjustment device of claim 8, wherein the motor housing is contoured to fit at least a portion of a user's hand. 15. A router adjustment device comprising: a base for supporting a router, the base defining a generally cylindrical interior recess; a motor housing adjustably secured by the base for movement along an axis to a position relative to the base; a frictional zone and a slidable zone disposed substantially longitudinally on at least one of the exterior of the motor housing and the generally cylindrical interior recess of the base, the frictional zone having a coefficient of friction which is greater than the coefficient of the slidable zone; and an adjustment mechanism for adjusting the position of the housing relative to the base, the adjustment mechanism including: a shaft connected to the motor housing for rotation about an axis, having a threaded portion, and a thread engaging member connected to the base, capable of selectively engaging with the threaded portion; wherein the frictional zone at least partially resists the movement of the motor housing with respect to the base, and wherein the frictional zone and the slidable zone are separate and apart from the adjustment mechanism, the shaft, and the thread engaging member. 16. The router adjustment device of claim 15, wherein the frictional zone comprises brass. 17. The router adjustment device of claim 15, wherein the frictional zone comprises at least one of a ceramic, a polymer, and an elastomeric material. 18. The router adjustment device of claim 15, wherein the static coefficient of friction between the frictional zone and at least one of the base and the motor housing is in the range of between approximately 0.15μ and 0.58μ. 19. The router adjustment device of claim 15, wherein the motor housing includes a grasping zone for aiding grasping by a user. 20. The router of claim 1, wherein the frictional zone is disposed in a substantially longitudinal strip on one of the motor housing and the base. 21. The router of claim 1, wherein the frictional zone and the slidable zone are disposed on an exterior surface of the motor housing. 22. The router of claim 1, wherein the frictional zone and the slidable zone are disposed on an interior surface of the base. 23. The router adjustment device of claim 8, wherein the first frictional zone is disposed in a substantially longitudinal strip. 24. The router adjustment device of claim 23, wherein the second frictional zone is disposed in a substantially longitudinal strip on one of the motor housing and the base. 25. The router adjustment device of claim 15, wherein the frictional zone is disposed in a substantially longitudinal strip on one of the motor housing and the base. 26. The router adjustment device of claim 15, wherein the frictional zone and the slidable zone are disposed on an exterior surface of the motor housing. 27. The router adjustment device of claim 15, wherein the frictional zone and the slidable zone are disposed on an interior surface of the base. 28. A router comprising: a base for supporting the router, the base having a sleeve with an inner surface; a motor housing configured to be received in the base for axial movement relative to the base, the motor housing having an outer surface configured to abut against the inner surface of the sleeve; an adjustment mechanism configured to adjust an axial position of the motor housing relative to the base, the adjustment mechanism including a shaft with a threaded portion coupled to one of the motor housing and the base for rotation about an axis of the shaft, and a thread engaging member coupled to the other of the motor housing and the base for selectively engaging the threaded portion, wherein at least one of the inner surface of the base sleeve and the outer surface of the motor housing includes a slidable zone and a frictional zone adjacent to the slidable zone and having a greater coefficient of friction than the slidable zone, the frictional zone at least partially resisting movement of the motor housing relative to the base, and wherein the frictional zone and the slidable zone are separate and apart from the adjustment mechanism, the shaft, and the thread engaging member. 29. The router of claim 28, wherein the frictional zone at least partially resists movement of the motor housing relative to the base when the thread engaging member is disengaged from the threaded portion of the shaft. 30. The router of claim 28, wherein the frictional zone is disposed on at least one substantially longitudinal strip. 31. A router comprising: a base for supporting the router, the base having a sleeve with an inner surface; a motor housing configured to be received in the base for axial movement relative to the base, the motor housing having an outer surface configured to abut against the inner surface of the sleeve; an adjustment mechanism configured to adjust an axial position of the motor housing relative to the base, the adjustment mechanism including a shaft with a threaded portion coupled to one of the motor housing and the base for rotation about an axis of the shaft, and a thread engaging member coupled to the other of the motor housing and the base for selectively engaging the threaded portion, wherein the inner surface of the base sleeve includes a first slidable zone and a first frictional zone, the outer surface of the motor housing includes a second slidable zone and a second frictional zone, the first and second frictional zones abuting each other and having a greater coefficient of friction than the first and second slidable zones to at least partially resist movement of the motor housing relative to the base, and wherein the first and second frictional zones and the first and second slidable zones are separate and apart from the adjustment mechanism, the shaft, and the thread engaging member. 32. The router of claim 31, wherein the frictional zone at least partially resists movement of the motor housing relative to the base when the thread engaging member is disengaged from the threaded portion of the shaft. 33. The router of claim 31, wherein the frictional zone is disposed on at least one substantially longitudinal strip. 34. A router comprising: a motor housing that includes a substantially cylindrical outer wall defining a longitudinal axis; a threaded shaft coupled to a side of the motor housing outside of the outer wall and extending along and rotatable about a shaft axis that is substantially parallel to the longitudinal axis; a base having a substantially cylindrical sleeve that slidably receives the outer wall of the motor housing for movement along the longitudinal axis; a flange mounted to a side of the sleeve and outside of the sleeve, the flange defining an aperture for receiving the threaded shaft; a thread engaging member coupled to the flange and extending into the aperture, the thread engaging member being moveable between a first position where the thread engaging member is engaged with the threaded shaft so that rotation of the shaft causes movement of the motor housing relative to the base in the longitudinal direction, and a second position where the thread engaging member is disengaged from the threaded shaft; and a longitudinal friction strip attached to the cylindrical outer wall of the motor housing, the friction strip having a greater coefficient of friction than the outer wall so that the friction strip inhibits movement of the motor housing relative to the base.
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이 특허에 인용된 특허 (113)
Coffey John R. ; Cotton Lawrence M. ; Carlson Carl Christian, Adjustable sub-base for fixed-base router.
Stolzer J. Timothy (Pickens SC) McCurry Ronald C. (West Union SC) Winchester Charles D. (Easley SC), Depth of cut locking mechanism for a plunge-type router.
Hillinger George (129 N. LeDoux Rd. Beverly Hills CA 90211), Ergonomically designed, electrically energized hand drill having a housing, longitudinally aligned with a hand, wrist an.
Gronholz ; deceased Donald D. (10941 Morris Ave. S. late of Bloomington MN 55437) Gronholz ; administrator by Marlene J. (10941 Morris Ave. S. Bloomington MN 55437), Router guide unit.
Olson Eugene T. (1250 135th Ave. NE. Anoka MN 55303) Olson Larry E. (1149 129th Ave. NE. Blaine MN 55434), Routing apparatus with dust extraction system.
Fuchs Rudolf (Neuhausen DEX) Boeck Cornelius (Leinf.-Echterdingen NC DEX) Roberts Bruce (New Bern NC) Martinez David M. (New Bern NC), Routing machine.
Good Wayne T. (4440 Walton Blvd. Waterford MI 48329) DeClerck Albert C. (3124 S. Adams Rd. Auburn Hills MI 48326) Burden Harold F. (629 S. Edgeworth Royal Oak MI 48967) Watson John A. (2253 Equestria, Transferrable personalized grip for a handle assembly and method for making same.
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