Skew setting mechanism for rotor assembly machine
First Claim
1. In an automated rotor laminations assembly apparatus for circular peripherally slotted laminations with a central opening, a skew setting combination comprisingan assembly nest having a generally cylindrical vertical axis cavity of greater horizontal dimensions than said laminations and a depth sufficient to accept a stack of from 10 to 100 of said laminations,a central stud in said cavity for engaging an opening in each of said laminations,at least one elongated generally vertically extending skew blade with a planar surface and having its lower end pivotally secured to a plunger mounted for axial motion substantially along a diameter of said cavity, the pivot axis of said skew blade being perpendicular to the plane of said surface, said plunger also being rotatable about an axis corresponding to said diameter of said cavity,a fulcrum plate at a position spaced a controllable distance above the pivot axis of said blade having an opening for engaging the thickness of said blade,means for setting the vertical position of said fulcrum plate,means for placing a stack of laminations in said cavity with slots in said laminations engaged by said blade in vertical orientation,means for partially restraining said blade near its upper end to maintain alignment with said slots,means for rotating said plunger about the vertical axis of said cavity to cause said blade to be non-parallel with said axis and thereby impart a skew to said stack of laminations,means for securing the laminations of said stack against relative movement, andmeans for moving said plunger away from said cavity vertical axis to withdraw said blade from said slots,whereby a skew angle is imparted to the stack of laminations which is a function of the controllable vertical distance between said fulcrum plate and the horizontal rotation axis of said plunger.
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Accused Products
Abstract
A rotor assembly machine which transports electric motor rotor laminates from a conveyor to a skewing nest where slots in the laminates are engaged by a plurality of vertical skew blades having a composite structure with two slightly separated spring steel vanes. The reduced width of the slot when the laminates are skewed is accommodated by the vanes of the skew blade flexing together. A particularly novel skew setting mechanism causes the skew blades to be tilted at a predetermined angle which is adjustable by varying the vertical distance between a higher fulcrum member and a lower blade pivot which rotated a predetermined angle causing the laminates to be skewed by an angle inversely related to the distances between the pivot and fulcrum, which distances in a multi-station machine may be separately adjusted thereby producing rotors from different stations with different skew angles. Press means inserts a dummy pin to hold the laminates in position and the lower end of the blades is moved radially outward to release the rotor assemblies out the bottom of the skewing nest.
3 Citations
20 Claims
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1. In an automated rotor laminations assembly apparatus for circular peripherally slotted laminations with a central opening, a skew setting combination comprising
an assembly nest having a generally cylindrical vertical axis cavity of greater horizontal dimensions than said laminations and a depth sufficient to accept a stack of from 10 to 100 of said laminations, a central stud in said cavity for engaging an opening in each of said laminations, at least one elongated generally vertically extending skew blade with a planar surface and having its lower end pivotally secured to a plunger mounted for axial motion substantially along a diameter of said cavity, the pivot axis of said skew blade being perpendicular to the plane of said surface, said plunger also being rotatable about an axis corresponding to said diameter of said cavity, a fulcrum plate at a position spaced a controllable distance above the pivot axis of said blade having an opening for engaging the thickness of said blade, means for setting the vertical position of said fulcrum plate, means for placing a stack of laminations in said cavity with slots in said laminations engaged by said blade in vertical orientation, means for partially restraining said blade near its upper end to maintain alignment with said slots, means for rotating said plunger about the vertical axis of said cavity to cause said blade to be non-parallel with said axis and thereby impart a skew to said stack of laminations, means for securing the laminations of said stack against relative movement, and means for moving said plunger away from said cavity vertical axis to withdraw said blade from said slots, whereby a skew angle is imparted to the stack of laminations which is a function of the controllable vertical distance between said fulcrum plate and the horizontal rotation axis of said plunger.
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8. In an automated magnetic core laminations assembly apparatus, a skew setting combination comprising
an assembly nest having a generally cylindrical vertical axis cavity depth sufficient to accept a stack of at least 10 of said laminations, at least one elongated generally vertically extending skew blade with generally parallel planar surfaces and having its lower end pivotally secured to a plunger mounted for horizontal motion relative to said cavity, the pivotal axis of said skew blade being perpendicular to the planes of said surfaces, said plunger also being rotatable about its horizontal axis, a fulcrum element having an opening for engaging the thickness of said blade at a position spaced from the pivot axis of said blade, means for rotationally relatively displacing said plunger and fulcrum plate to cause said skew blade to be non-parallel with the axis of said cavity and thereby impart a skew to said stack of laminations, means for securing the laminations of said stack against relative movement, and means for moving said plunger away from said cavity vertical axis to withdraw said blade from said slots.
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17. In an automated rotor laminations assembly apparatus for slotted laminations, a skew setting combination comprising,
an assembly nest having a generally cylindrical vertical axis cavity with depth sufficient to accept a stack of at least 10 of said laminations, means in said cavity for engaging said laminations with freedom of individual rotational movement about a vertical axis, at least one generally planar skew blade with an edge extending toward the center of said cavity to engage said slots having its end pivotally secured to a pivot element with a first pivot axis perpendicular to the plane of said blade and a second pivot axis horizontally extending approximately through the center of said cavity, a vertically movable fulcrum having means for engaging said blade at a position intermediate of its ends and spaced a controllable vertical distance from said second pivot axis, means for rotating said pivot element through a predetermined angle about the vertical axis of said cavity to cause said skew blade to shift from a vertical to non-vertical position and thereby impart a skew to the slots of said stack of laminations, whereby a skew angle is imparted to the stack of laminations which is a function of the controllable vertical distance between said fulcrum plate and said second pivot axis of said pivot element.
Specification