US2362699A - Knife sharpener - Google Patents
Knife sharpener Download PDFInfo
- Publication number
- US2362699A US2362699A US430178A US43017842A US2362699A US 2362699 A US2362699 A US 2362699A US 430178 A US430178 A US 430178A US 43017842 A US43017842 A US 43017842A US 2362699 A US2362699 A US 2362699A
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- Prior art keywords
- shaft
- abrasive
- wheels
- wheel
- elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B3/00—Sharpening cutting edges, e.g. of tools; Accessories therefor, e.g. for holding the tools
- B24B3/36—Sharpening cutting edges, e.g. of tools; Accessories therefor, e.g. for holding the tools of cutting blades
- B24B3/54—Sharpening cutting edges, e.g. of tools; Accessories therefor, e.g. for holding the tools of cutting blades of hand or table knives
Definitions
- Knife ⁇ Sharpeners have been devised heretofore which include a pair of abrasive wheels running in ⁇ contact and providing a bight in which the blade is ⁇ placed and where it is acted upon by the working surfaces of both rotary elements, rotation at the night being toward the edge of the blade.
- a more specific object of the invention is to provide such apparatus with a pair of rotary abrasive elements whose rotational axes are disposed at an angle to each other andto provide means for shifting said rotary abrasiveelements axially to produce a generally lateral wiping action of one ⁇ working surface on the other to eliminate grooving of said working surfaces.
- a further object of the invention is to provide sharpening apparatus whereinthe action of the preceding paragraph is produced by disposing the rotary axes of the rotary abrasive elements on non-intersecting lines.
- Fig. 4 is amore or less diagrammatic showing of a simplied embodiment of my invention.-
- Fig. 1 there is shown a pan 5A within which is positioned an angular bracket or base 6. On
- the abrasive wheel 1 is mounted upon an shaft!! which extends rearwardly into a sleeve I0, said sleeveb'eing rotatable in a bearing II which is xed in a bearing block I2.
- the sleeve I is provided with a Yslot ⁇ I3 and a key I4 in the shaft 9 is adapted to ride in the slot I3 to permit axial movement oi' said shaft 9 relative to the sleeve Il.
- a flange I5 on the end of sleeve Ill nearest the abrasive wheel 1 prevents said sleeve l0 from moving away from said abrasive wheel.
- a compression spring I6 is positioned in the sleeve Ill between an end of the shaft 9 and a suitable plug I1 in the right-hand or .outer end of said sleeve 1D.
- a collar Il is secured to the sleeve I0 shaft B.
- the bearing block I2 is provided with slots 22 on either side thereof and studs 23 which extend through said slots 22 and into the base 6 permit the entire ⁇ assembly t0 be shifted axially of the At theleft-hand side of Fig. 1 there is shown an abrasive wheel 24 having a slanting working face 25 adapted to engage the working face 8 on the wheel 1, as shown in Fig. 1.
- the abrasive wheel 24 is mounted suitably upon a shaft 26 which is .positioned inv a sleeve 21 and keyed thereto as is the case of the shaft 9 and sleeve I0 previously described.
- Sleeve 2-1' is provided with a cap 28 into which is threaded a screw 29 which bears against an end of the shaft 26 so that it can be i adjustably moved ⁇ within said sleeve 21.
- the sleeve 21 is adaptedto rotatein a bearing 30 ⁇ in a bearing block 3l.
- is provided with slots 32 to receive studs V33 so that sa'id bearing block can be adjustably position'ed on the base 6 inthe same manner as the bearing block 1 previously described.
- a bearing race portion 34 which cooperates with an outer race portion 35 to retain a series of ball bearings 36.4
- is a stub shaft 31 and on yone end of said vstub shaft is a sprocket 38 and step-by-step motion said sprocket 38 and cam 39 are. releasablyl secured by a spring pressed pin 42 which is positioned in the Abearing block 3-I lthe shaft 9 and abrasive wheel 1.
- This apparatus is adapted to be run in an oil bath which is contained in the pan 5.
- One pro-blem encountered is that of oil from the pan accumulating on the wheels, and when the appa- 'ratus is stopped the oil will run down the rear faces of the wheels onto the shafts 9 and 26.
- I provide a drain channel 43 between the rearportion of each of the wheels 1 and 24 and the rear wheel clamping plate 44 on each of said wheels., This to ⁇ a great extent prevents oil from flowing onto either shaft 9 or 26.
- I provide vent holes 45 in each of said sleeves rearwardly of said shafts 9 and 21 so that oil will not back up behind said shafts and prevent their proper movement.
- the apparatus In sharpening -a knife or similar implement the apparatus is set in motion from any suitable power source through the flexible drive 20 with the abrasive elements 1 and 24 rotating, as viewed in Fig. 1, in clockwise and counterclockwise directions respectively. This resultsl in the wheels at their bight, as seen in Fig 1, producing a movement toward the edge of a knife held horizontally with its blade vertically disposed and its edge positioned in the bight which is indicated at 46. The knife is then moved longitudinally as have slanting working surfaces 50 and 5
- a wood or other relatively soft block 31 can be placed adjacent the point where the abrasive wheels meet so that if the knife is pulled too far out of the bight 46 it will fall upon the cushioning block 41 and the edge will not be harmed.
- Fig. 4 the even and smooth wearing of the abrasive wheels is accomplished in a somewhat different manner.
- the wheel 48 is on a horizontally disposed axis 52 whereas the wheel 49 is mounted on a shaft 53,
- shaft 52 or 53 may constitute the drive shaft wtih power supplied through its respective abrasive wheel to the other wheel by contact between the working surfaces 50 and 5
- a frictional driving Contact between the two wheels with a direction diagonal to transverse lines across one or both of said workin-g surfaces 50 and 5
- Sharpening apparatus comprising, a pair of rotary abrasive elements having working faces in frictional contact, one of said abrasive elements having a drive connection, and means for reciprocating said abrasive elements oppositely to each other while in contact to produce relative lateral movement between said abrasive elements.
- Sharpening apparatus comprising, a pair of rotary abrasive elements having Working surfaces 'in frictional contact, the axes of said elements Thus the edges lying at angles to each other, means for yieldably urging one of said elements along its axis toward the axis of the other of said elements, and means connected to said other of said elements for positively moving it intermittently along its axis toward the axis of said yieldably urged element.
- Sharpening apparatus comprising, a pair of rotary abrasive elements having working surfaces in frictional contact, the axes of said elements lying at angles to each other, one of said elements including means for yieldably urging it along its axis toward the axis of the other of said elements, and said other of said elements having means connected thereto for reciprocating it axially toward and away from the axis of said iirst mentioned element, and one of said elements including means for adjustably positioning it axially independent of said yielding or reciprocating means to provide an adjustable takeup to compensate for wear.
- Sharpening apparatus comprising, first and second rotary abrasive elements having working surfaces in frictional contact, the first of said elements having an axial shaft connected thereto, a bearing for said shaft permitting axial movement of the shaft therein, yielding means for urging said shaft and first abrasive element toward the rotational axis of said second abrasive element, said second rotary element having an axial shaft connected thereto, a bearing for said shaft permitting axial movement of said shaft therein, a cam follower on said second shaft, a
- cam supported for rotation adjacent said second shaft and contacting said follower, and means on said second shaft for imparting rotational movement to said cam.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Description
NOV- 14 1944- J. J. KILIAN 2,362,699
KNIFEy SHARPENER FiledFeb. 1o, 1942 Invertia?" l Patented Nov. 14, 1944 UNITED ySTATES PAT-ENT OFFICE V Jerome J. Kilian, Osseo, Minn.
Application February 10, 194,2,` Serial No. 430,176
' (o1. 51-.4m l I 4 Claims.
This invention relates to sharpening apparatus and more particularly to mechanism for sharpening knives and similar edged implements. Knife` Sharpeners have been devised heretofore which include a pair of abrasive wheels running in` contact and providing a bight in which the blade is `placed and where it is acted upon by the working surfaces of both rotary elements, rotation at the night being toward the edge of the blade. In
devices of this type, however, there is a tendency of` the working surfaces to form grooves and said surfaces lrequire periodical grinding or dressing to make them smooth again.
It is a generalobject of my invention to provide sharpening apparatus of this general type which includes a pair of rotary abrasive elements whose working surfaces are in frictional contact and means for positioning said abrasive elements relative to each other in such a way that the objectional groovingA of the working surfaces will not take place and said surfaces will remain transversely flat and in proper condition at all times.
A more specific object of the invention is to provide such apparatus with a pair of rotary abrasive elements whose rotational axes are disposed at an angle to each other andto provide means for shifting said rotary abrasiveelements axially to produce a generally lateral wiping action of one `working surface on the other to eliminate grooving of said working surfaces.
A further object of the invention is to provide sharpening apparatus whereinthe action of the preceding paragraph is produced by disposing the rotary axes of the rotary abrasive elements on non-intersecting lines.
These and other objects and advantages ofthe invention will more fully appear from thefollowing description made in connection with the accompanying drawing, wherein like reference Ycharacters refer to the same parts throughout `the viewsand, in which:
approximatelyA on the line 3-3 of Fig. 1; and
Fig. 4 is amore or less diagrammatic showing of a simplied embodiment of my invention.-
In Fig. 1 there is shown a pan 5A within which is positioned an angular bracket or base 6. On
the right-hand end of the bracket as viewed in Fig. 1 is a rotary Wheel or other. suitable abrasive element 1 having a diagonally disposed working surface 8. The abrasive wheel 1 is mounted upon an shaft!! which extends rearwardly into a sleeve I0, said sleeveb'eing rotatable in a bearing II which is xed in a bearing block I2. vThe sleeve I is provided with a Yslot `I3 and a key I4 in the shaft 9 is adapted to ride in the slot I3 to permit axial movement oi' said shaft 9 relative to the sleeve Il. A flange I5 on the end of sleeve Ill nearest the abrasive wheel 1 prevents said sleeve l0 from moving away from said abrasive wheel. A compression spring I6 is positioned in the sleeve Ill between an end of the shaft 9 and a suitable plug I1 in the right-hand or .outer end of said sleeve 1D. A collar Il is secured to the sleeve I0 shaft B.
by means of a set screw I9 and said collar is also connected to a drive member such as a flexible shaft secured in said collar by a set screw 2 I.
The bearing block I2 is provided with slots 22 on either side thereof and studs 23 which extend through said slots 22 and into the base 6 permit the entire `assembly t0 be shifted axially of the At theleft-hand side of Fig. 1 there is shown an abrasive wheel 24 having a slanting working face 25 adapted to engage the working face 8 on the wheel 1, as shown in Fig. 1. The abrasive wheel 24 is mounted suitably upon a shaft 26 which is .positioned inv a sleeve 21 and keyed thereto as is the case of the shaft 9 and sleeve I0 previously described. Sleeve 2-1'is provided with a cap 28 into which is threaded a screw 29 which bears against an end of the shaft 26 so that it can be i adjustably moved `within said sleeve 21.
The sleeve 21 is adaptedto rotatein a bearing 30 `in a bearing block 3l. Saidbearing block 3| is provided with slots 32 to receive studs V33 so that sa'id bearing block can be adjustably position'ed on the base 6 inthe same manner as the bearing block 1 previously described.
Mounted on the inner end of the sleeve 21 adjacent the abrasive element or wheel 24 is a bearing race portion 34 which cooperates with an outer race portion 35 to retain a series of ball bearings 36.4 Mounted for rotation in a portion of the bearing block 3| is a stub shaft 31 and on yone end of said vstub shaft is a sprocket 38 and step-by-step motion said sprocket 38 and cam 39 are. releasablyl secured by a spring pressed pin 42 which is positioned in the Abearing block 3-I lthe shaft 9 and abrasive wheel 1.
and successively engages the depressions 40 on the adjacent face of said sprocket 38.
When the abrasive element or wheel 1 is rotated by its connection with the flexible drive 29 or other suitable means this rotational movement gagement with the outer bearing race portion 35. Pressure against this bearing unit forces the sleeve 21 and shaft -26 axially toward the axis of This motion is transmitted from the sleeve 21 to the shaft 28 by reason of the fact that the adjusting screw 29 at the outer or left-hand end of the sleeve 21 is in engagement with the outer or left-hand end of the shaft 26. As this movement takes place pressure of the abrasive wheel 24 with its working surface 25 against the working surface 8 on the wheel 1 will push said abrasive wheel 1 and its shaft 9 against the tension spring i6 so that there is a relative lateral shifting motion of one abrasive wheel to the other. Then as the low side of the cam 39 comes into engagement with the bearing race portion. 35, pressure of the cam 39 against said bearing race portion 35 is relieved. Then the pressure of spring I6 against the end of shaft 9 will cause said vshaft 9 and abrasive wheel 1 to move axially toward the axis of shaft 26-and abrasive wheel 24, and said wheel 24 and its shaft 25 will move toward the bearing block 3| which supports the shaft 26 thus completing the cycle of relative reciprocation of the two contacting wheels. This relativelateral movement of the two contacting abrasive wheels produces a frictional driving force which is diagonal to transverse lines across the working surface of said abrasive elements and the result is that the working surfaces ofA the wheels do not have grooves formed therein nor does one wheel acquire an overlapping edge which would otherwise result in unequal wearing of the two abrasive elements.
This apparatus is adapted to be run in an oil bath which is contained in the pan 5. One pro-blem encountered is that of oil from the pan accumulating on the wheels, and when the appa- 'ratus is stopped the oil will run down the rear faces of the wheels onto the shafts 9 and 26. In order to relieve this condition I provide a drain channel 43 between the rearportion of each of the wheels 1 and 24 and the rear wheel clamping plate 44 on each of said wheels., This to`a great extent prevents oil from flowing onto either shaft 9 or 26. However, should any oil leak in between shafts 9 and 26 and their sleeves ill and 21 I provide vent holes 45 in each of said sleeves rearwardly of said shafts 9 and 21 so that oil will not back up behind said shafts and prevent their proper movement.
In sharpening -a knife or similar implement the apparatus is set in motion from any suitable power source through the flexible drive 20 with the abrasive elements 1 and 24 rotating, as viewed in Fig. 1, in clockwise and counterclockwise directions respectively. This resultsl in the wheels at their bight, as seen in Fig 1, producing a movement toward the edge of a knife held horizontally with its blade vertically disposed and its edge positioned in the bight which is indicated at 46. The knife is then moved longitudinally as have slanting working surfaces 50 and 5|.
it lies in the bight and the wheels rotate and it is possible to form a sharp even edge on the knife in a short time. If desired, a wood or other relatively soft block 31 can be placed adjacent the point where the abrasive wheels meet so that if the knife is pulled too far out of the bight 46 it will fall upon the cushioning block 41 and the edge will not be harmed.
In the embodiment shown in Fig. 4 the even and smooth wearing of the abrasive wheels is accomplished in a somewhat different manner. As shown there are two wheels 48 and 49 which The wheel 48 is on a horizontally disposed axis 52 whereas the wheel 49 is mounted on a shaft 53,
. the longitudinal axis of which does not intersect with the shaft 52 forming the axial support of the abrasive element 48. The shaft 53 support* ing wheel 49 is shown to have a drive connection indicated generally at 54 but it is contemplated that either shaft 52 or 53 may constitute the drive shaft wtih power supplied through its respective abrasive wheel to the other wheel by contact between the working surfaces 50 and 5| on the two wheels 48 and 48. With an arrangement such as that shown there is a frictional driving Contact between the two wheels with a direction diagonal to transverse lines across one or both of said workin-g surfaces 50 and 5|. of the working surfaces 50 and 5| on the wheels 48 and 49 do not run in alignment but diagonally turn across each other producing a wiping action between said working surfaces to maintain said surfaces transversely flat so that no grooves or ridges will be formed.
From the foregoing description it will be seen that I have provided mechanism for sharpening devices such as knives wherein a pair of abrasive wheels are utilized with the working surfaces of the wheels in frictional driving Contact and wherein the wheels are so positioned that grooves or ridges will not be formed on such working surfaces thus eliminating any necessity for periodical honing or dressing of said working surfaces, and it has been shown and described that the results can be produced either by mechanically moving the abrasive Wheels relative to each other to produce a sidewise wiping action, or the axes of the two wheels can be located on nonintersecting lines with the working surfaces of the wheels together.
While I have shown the abrasive wheels disposed at an angle of approximately degrees I it is, of course, contemplated that any other angle might be used, and as matter of fact wheels having peripheral working surfaces whose transverse lines are parallel to the axes of the wheels can also be utilized in either embodiment of the invention.
It will, of course, be understood that various changes may be made in the form, details, arrangement and proportions of the various parts without departing from the scope of my invention.
What is claimed is:
1. Sharpening apparatus comprising, a pair of rotary abrasive elements having working faces in frictional contact, one of said abrasive elements having a drive connection, and means for reciprocating said abrasive elements oppositely to each other while in contact to produce relative lateral movement between said abrasive elements.
2. Sharpening apparatus comprising, a pair of rotary abrasive elements having Working surfaces 'in frictional contact, the axes of said elements Thus the edges lying at angles to each other, means for yieldably urging one of said elements along its axis toward the axis of the other of said elements, and means connected to said other of said elements for positively moving it intermittently along its axis toward the axis of said yieldably urged element.
3. Sharpening apparatus comprising, a pair of rotary abrasive elements having working surfaces in frictional contact, the axes of said elements lying at angles to each other, one of said elements including means for yieldably urging it along its axis toward the axis of the other of said elements, and said other of said elements having means connected thereto for reciprocating it axially toward and away from the axis of said iirst mentioned element, and one of said elements including means for adjustably positioning it axially independent of said yielding or reciprocating means to provide an adjustable takeup to compensate for wear.
4. Sharpening apparatus comprising, first and second rotary abrasive elements having working surfaces in frictional contact, the first of said elements having an axial shaft connected thereto, a bearing for said shaft permitting axial movement of the shaft therein, yielding means for urging said shaft and first abrasive element toward the rotational axis of said second abrasive element, said second rotary element having an axial shaft connected thereto, a bearing for said shaft permitting axial movement of said shaft therein, a cam follower on said second shaft, a
cam supported for rotation adjacent said second shaft and contacting said follower, and means on said second shaft for imparting rotational movement to said cam.
JEROME J. KILIAN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US430178A US2362699A (en) | 1942-02-10 | 1942-02-10 | Knife sharpener |
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Application Number | Priority Date | Filing Date | Title |
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US430178A US2362699A (en) | 1942-02-10 | 1942-02-10 | Knife sharpener |
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US2362699A true US2362699A (en) | 1944-11-14 |
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US430178A Expired - Lifetime US2362699A (en) | 1942-02-10 | 1942-02-10 | Knife sharpener |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2570690A (en) * | 1946-06-19 | 1951-10-09 | Jerome J Kilian | Blade sharpener |
US2597150A (en) * | 1948-06-16 | 1952-05-20 | Jerome J Kilian | Knife blade sharpener |
US3543446A (en) * | 1968-06-21 | 1970-12-01 | Jerome J Kilian | Blade sharpener |
US4672777A (en) * | 1986-03-06 | 1987-06-16 | Albert Dunkin | Knife sharpening device |
US6193592B1 (en) * | 1997-09-08 | 2001-02-27 | Mv Marketing Und Vertribes-Gmbh & Co. Kg Wielander + Schill | Integrated double seam grinder for manual welding preparation |
US20170154695A1 (en) * | 2014-06-06 | 2017-06-01 | EnBW Energie Baden-Württemberg AG | Device and method for removing contaminated material |
-
1942
- 1942-02-10 US US430178A patent/US2362699A/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2570690A (en) * | 1946-06-19 | 1951-10-09 | Jerome J Kilian | Blade sharpener |
US2597150A (en) * | 1948-06-16 | 1952-05-20 | Jerome J Kilian | Knife blade sharpener |
US3543446A (en) * | 1968-06-21 | 1970-12-01 | Jerome J Kilian | Blade sharpener |
US4672777A (en) * | 1986-03-06 | 1987-06-16 | Albert Dunkin | Knife sharpening device |
US6193592B1 (en) * | 1997-09-08 | 2001-02-27 | Mv Marketing Und Vertribes-Gmbh & Co. Kg Wielander + Schill | Integrated double seam grinder for manual welding preparation |
US20170154695A1 (en) * | 2014-06-06 | 2017-06-01 | EnBW Energie Baden-Württemberg AG | Device and method for removing contaminated material |
US10217535B2 (en) * | 2014-06-06 | 2019-02-26 | EnBW Energie Baden-Württemberg AG | Device and method for removing contaminated material |
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