Method of fabricating a torque sensor
First Claim
1. A method of fabricating a torque sensor to be coupled between an engine and an absorption dynamometer for use in measuring the torque output of the engine comprising the steps of:
- fabricating two identical, stainless steel cylindrical rings, each having a generally rectangular cross-section;
simultaneously drilling a plurality of spaced holes in each ring extending parallel to the longitudinal axis thereof, such that the holes in one ring are aligned with the holes in the other ring;
fabricating a plurality of elongated, cylindrical beams corresponding to the plurality of holes in the rings, with the diameter of said beams substantially corresponding to the diameter of the holes in the rings;
assembling said rings and beams such that the rings are disposed in spaced relationship and have their longitudinal axes colinear, and wherein the elongated cylindrical beams extend between said rings, with the opposite ends of said beams being disposed in the respective aligned holes of the rings;
securing said rings and beams together by electron beam welding to form an integral assembly; and
machining flat portions on the beams intermediate the length thereof for mounting of strain gauges thereon.
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Accused Products
Abstract
The invention relates to a method of fabricating a torque sensor to which are applied strain gauges, with the torque sensor being adapted to be coupled between an engine and an absorption dynamometer for use in measuring the torque output of the engine. The subject process results in an integral assembly of two cylindrical rings interconnected by a plurality of elongated bars or beams to which the strain gauges are attached. During the process, a plurality of spaced holes are simultaneously drilled in the two identical, cylindrical rings, after which the rings and beams are assembled such that the rings are disposed in spaced relationship, and with the elongated beams extending between the rings. The beams are connected to the rings by electron beam welding so as to form an integral torque sensor assembly.
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Citations
8 Claims
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1. A method of fabricating a torque sensor to be coupled between an engine and an absorption dynamometer for use in measuring the torque output of the engine comprising the steps of:
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fabricating two identical, stainless steel cylindrical rings, each having a generally rectangular cross-section; simultaneously drilling a plurality of spaced holes in each ring extending parallel to the longitudinal axis thereof, such that the holes in one ring are aligned with the holes in the other ring; fabricating a plurality of elongated, cylindrical beams corresponding to the plurality of holes in the rings, with the diameter of said beams substantially corresponding to the diameter of the holes in the rings; assembling said rings and beams such that the rings are disposed in spaced relationship and have their longitudinal axes colinear, and wherein the elongated cylindrical beams extend between said rings, with the opposite ends of said beams being disposed in the respective aligned holes of the rings; securing said rings and beams together by electron beam welding to form an integral assembly; and machining flat portions on the beams intermediate the length thereof for mounting of strain gauges thereon. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of fabricating a torque sensor to be coupled between an engine and an absorption dynamometer for use in measuring the torque output of the engine comprising the steps of:
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fabricating two identical cylindrical rings, each ring having a generally rectangular cross-section; providing a plurality of spaced holes in each ring extending parallel to the longitudinal axis thereof, with the holes in one ring being aligned with the holes in the other ring; fabricating a plurality of elongated cylindrical beams corresponding to the plurality of holes in a ring, with the cross-section of said beams substantially corresponding to the cross-sections of the holes in the rings; assembling said rings and beams, with the rings being disposed in spaced relationship and having their longitudinal axes colinear, and with said elongated beams extending between said rings, the opposite ends of said beams disposed in the respective aligned holes of the ring; securing said rings and beams together by electron beam welding to form an integral assembly; and machining flat portions on the beams, intermediate the length thereof for mounting of strain gauges thereon, the planes of the flat portions on each beam being disposed 90°
relative to the planes of the flats on the adjacent beams.
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Specification