A skate blade retention mechanism for retaining a skate blade in a sharpening position to be sharpened includes a pair of elongated jaws configured for symmetrical jaw opening and closing movements about a centerline of the skate blade in the sharpening position. A biasing mechanism is configured an
A skate blade retention mechanism for retaining a skate blade in a sharpening position to be sharpened includes a pair of elongated jaws configured for symmetrical jaw opening and closing movements about a centerline of the skate blade in the sharpening position. A biasing mechanism is configured and operative to apply a bias force to symmetrically bias the jaws toward a closed position with sufficiently high force to retain the skate blade in the sharpening position when the skate blade is located between the jaws as so biased. An actuator is configured to actuate the jaws against the bias force to an open position under user control to permit insertion and removal of the skate blade.
대표청구항▼
1. A skate blade retention mechanism for retaining a skate blade in a sharpening position to be sharpened, comprising: a pair of elongated jaws configured for symmetrical jaw opening and closing movements about a centerline of the skate blade in the sharpening position;a biasing mechanism configured
1. A skate blade retention mechanism for retaining a skate blade in a sharpening position to be sharpened, comprising: a pair of elongated jaws configured for symmetrical jaw opening and closing movements about a centerline of the skate blade in the sharpening position;a biasing mechanism configured and operative to apply a bias force to symmetrically bias the jaws toward a closed position with sufficiently high force to retain the skate blade in the sharpening position when the skate blade is located between the jaws as so biased; andan actuator configured to actuate the jaws against the bias force to an open position under user control to permit insertion and removal of the skate blade,wherein the pair of jaws are mechanically coupled to the biasing mechanism and actuator by a pull rod fork having a pair of arms arranged about an axis along which the bias force acts, each arm connected to a respective jaw. 2. A skate blade retention mechanism according to claim 1, wherein the jaws include respective guide slots elongated symmetrically about the centerline of the skate blade, the jaws sliding in response to the bias force and actuation by the actuator. 3. A skate blade retention mechanism according to claim 1, wherein the bias force and actuation by the actuator are applied in the direction of the centerline of the skate, and wherein the guide slots are angled from the direction of the centerline of the skate to translate the bias force to a clamping force on the skate blade. 4. A skate blade retention mechanism according to claim 1, wherein the pair of arms are symmetrically arranged about a central axis. 5. A skate blade retention mechanism according to claim 1, wherein the pull rod fork is a unitary component having a fork top portion and two elongated arm portions. 6. A skate blade retention mechanism according to claim 1, further including an actuator housing having a pull rod extending therefrom, and wherein the biasing mechanism includes a spring in the actuator housing, the spring configured to urge the pull rod toward a retracted position to generate the bias force via the pull rod and the pull rod fork. 7. A skate blade mechanism according to claim 6, wherein the pull rod and pull rod fork are separate components mechanically coupled together to enable the pull rod fork to be pulled by the pull rod. 8. A skate blade retention mechanism according to claim 6, wherein the actuator includes (i) a head portion of the pull rod, (ii) a rotatable cam presenting a changing-radius cam surface to the head portion of the pull rod, and (iii) a paddle configured to rotate the cam to cause the cam surface to push the head portion of the pull rod against the bias force to actuate the jaws to the open position. 9. A skate blade mechanism according to claim 8, wherein the rotatable cam and paddle are separate components mechanically coupled together in a manner enabling the paddle to rotate the cam. 10. A skate blade retention mechanism according to claim 8, wherein the cam surface is co-configured with the head portion of the pull rod to create a detent when the jaws are in the open position. 11. A skate blade retention mechanism according to claim 1, used with an alignment tool having a blade-like portion and an indicator to be placed into a precise position relative to the sharpening position of the skate blade, the indicator being used together with an indicator referenced to a position of the grinding wheel to align the grinding wheel with the skate blade in the sharpening position. 12. A skate blade retention mechanism according to claim 11, wherein one or both of the jaws include keying features matching corresponding keying features of the alignment tool, the keying features establishing a keyed position of the alignment tool when the blade-like portion is retained by the jaws. 13. A skate blade sharpening system for sharpening a skate blade, comprising: a chassis and an elongated slot for receiving the skate blade into a sharpening position; anda skate blade retention mechanism for retaining the skate blade in the sharpening position, the skate blade retention mechanism being secured to the chassis at the slot and including (i) a pair of elongated jaws configured for symmetrical jaw opening and closing movements about a centerline of the skate blade in the sharpening position, (ii) a biasing mechanism configured and operative to apply a bias force to symmetrically bias the jaws toward a closed position with sufficiently high force to retain the skate blade in the sharpening position when the skate blade is located between the jaws as so biased, and (iii) an actuator configured to actuate the jaws against the bias force to an open position under user control to permit insertion and removal of the skate blade. 14. A skate blade sharpening system according to claim 13, wherein the jaws include respective guide slots elongated symmetrically about the centerline of the skate blade, and further including guide features disposed in respective guide slots securing the jaws to the chassis, the jaws sliding in response to the bias force and actuation by the actuator. 15. A skate blade sharpening system according to claim 14, wherein the guide features are guide blocks, wherein the guide slots and guide blocks have respective angled surfaces contacting each other on which the jaws slide when moving between the open and closed positions, the angled surfaces and dimensions of the guide slots and guide blocks being co-configured to provide for (i) a first position of the jaws on the guide blocks in which the jaws are spaced from a surface referenced to the chassis and slide on the guide blocks, and (ii) a second position of the jaws on the guide blocks in which the jaws contact the surface referenced to the chassis and the angled surface of the guide blocks reflects the biasing force and a reaction force from the skate blade in the sharpening position to urge the jaws against the surface of the chassis. 16. A skate blade sharpening system according to claim 15, further including spacer blocks attached to a surface of the chassis and to which the jaws are secured, the spacer blocks providing the surface referenced to the chassis. 17. A skate blade sharpening system according to claim 13, wherein the surface of the chassis is a bottom surface and the chassis also has a top surface, and further including: a grinding wheel configured for movement along the slot including a lower edge of the skate blade in a sharpening operation; anda one or more slot covers mounted at the top surface of the chassis at respective ends of the slot, the slot covers being movable between respective outward positions and respective inward positions, the slot covers in the outward positions uncovering the slot sufficiently to permit insertion and removal of the skate blade, the slot covers in the inward positions covering respective end portions of the slot adjacent respective ends of the skate blade to prevent insertion of objects through the end portions of the slot as the grinding wheel moves along the slot during a sharpening operation. 18. A skate blade sharpening system according to claim 17, wherein the slot covers are slidably mounted at the top surface of the chassis and are slidable between the outward and inward positions.
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이 특허에 인용된 특허 (43)
Schudel, Werner, Abrasive wheel comprising a fan-like structure.
Wilson, Murray David; Wilson, Steven David; Hageniers, Omer Leon, Ice skate blade sharpening machines and associated method of dressing a grinding wheel.
Ek Robert (Odlingsvgen 46 S-342 00 Alvesta SEX) Bergstedth Henry (Morkullevgen 12 S-360 15 Hovmantorp SEX), Method and apparatus for grinding the sliding surface of skates.
Peacock Wally E. (726-10th Avenue Castlegar ; British Columbia CAX) Carew Martin T. (3209-5th Avenue Castlegar ; British Columbia CAX), Portable skate sharpener.
Hannaford James H. (Calgary CAX) Myrfield Warren (Aldergrove CAX) Weiler David H. (Calgary CAX) Trofimenkoff Frederick N. (Calgary CAX) Consay Joseph A. (Calgary CAX) Dobie Donald M. (Calgary CAX), Skate sharpening apparatus.
Strain Randy L. (Minneapolis MN) Jannetto Jeffrey P. (White Bear Lake Township MN) Evans Robert M. (North Branch MN), Skate sharpening apparatus and method.
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