Measuring apparatus
First Claim
1. A method of determining the radius of curvature of the curved surface of a component under test using a roundness measuring instrument of the type comprising:
- a workpiece table,a pick-up,amplifier means connected to said pick-up,a pick-up mount supporting said pick-up, andmeans interconnecting said pick-up mount and said workpiece support table such that said pick-up and said table are relatively rotatable about a main axis of the instrument and said pick-up is adjustable radially towards or away from said main axis so as to be brought into contact with a workpiece on said workpiece support table to produce output signals representative of the surface of said workpiece,a displacement transducer having a body connected to one of said pick-up mount and a fixed frame member which is fixed with respect to said main axis, and a sensing element movable with respect to said body and attached to the other of said fixed frame member and said pick-up mount, andmeans connected to the output of said pick-up amplifier means and to the output of said displacement transducer and operating to produce an instrument output signal representing the sum of the signals from said pick-up and said displacement transducer,whereby to provide output signals representing the radial displacement of said pick-up over a limited range,said method comprising the steps of;
locating a reference body on the table of said instrument,obtaining at least two instrument output signals representing the radial separation of the surface of said reference body from the axis of relative rotation at at least two points spaced diametrically opposite one another across the said axis of relative rotation, and storing said two instrument output signals,substituting a component under test for said reference body,obtaining a plurality of instrument output signals representing the separation of the surface of the component under test from said axis of relative rotation, andproviding from said instrument output signals and the known dimensions of the reference body, an output signal representative of the mean radius of curvature of the curved surface of the component under test by computing the value of the expression
space="preserve" listing-type="equation">R.sub.c = R.sub.2 + (L.sub.c - L.sub.s) + (R.sub.c - R.sub.s)/Mwhere;
Rc is the mean radius of the component under testRs is the mean radial separation of the surface of the reference body from the instrument at the two points detected(Lc - Ls) is the change in the instrument output signal upon substitution of the component for the reference bodyRc is the radius of the least squares reference circle computed from the pick-up output signal upon traversing the componentRs is the radius of the least squares reference circle computed from the values of the pick-up output signal at the said two diametrically opposite points on the reference bodyand M is the magnification of the instrument.
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Abstract
A roundness measuring instrument of the type having a workpiece table and a pick-up carried on a pick-up mount which is radially adjustable to move the pick-up radially with respect to a fixed axis about which the table is rotatable, in which there is provided a displacement transducer sensitive to the movement of the pick-up mount in the radial direction. A device for summing the signals from the displacement transducer and from the pick-up is used to provide a wide range signal usable in metrological determinations on workpieces, such as determinations of radius and separation of two plane faces. A computer for calculating the value of a predetermined algorithm may also be provided to obviate the necessity for centering either a reference body or the workpiece with respect to the axis of rotation of the table.
34 Citations
4 Claims
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1. A method of determining the radius of curvature of the curved surface of a component under test using a roundness measuring instrument of the type comprising:
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a workpiece table, a pick-up, amplifier means connected to said pick-up, a pick-up mount supporting said pick-up, and means interconnecting said pick-up mount and said workpiece support table such that said pick-up and said table are relatively rotatable about a main axis of the instrument and said pick-up is adjustable radially towards or away from said main axis so as to be brought into contact with a workpiece on said workpiece support table to produce output signals representative of the surface of said workpiece, a displacement transducer having a body connected to one of said pick-up mount and a fixed frame member which is fixed with respect to said main axis, and a sensing element movable with respect to said body and attached to the other of said fixed frame member and said pick-up mount, and means connected to the output of said pick-up amplifier means and to the output of said displacement transducer and operating to produce an instrument output signal representing the sum of the signals from said pick-up and said displacement transducer, whereby to provide output signals representing the radial displacement of said pick-up over a limited range, said method comprising the steps of; locating a reference body on the table of said instrument, obtaining at least two instrument output signals representing the radial separation of the surface of said reference body from the axis of relative rotation at at least two points spaced diametrically opposite one another across the said axis of relative rotation, and storing said two instrument output signals, substituting a component under test for said reference body, obtaining a plurality of instrument output signals representing the separation of the surface of the component under test from said axis of relative rotation, and providing from said instrument output signals and the known dimensions of the reference body, an output signal representative of the mean radius of curvature of the curved surface of the component under test by computing the value of the expression
space="preserve" listing-type="equation">R.sub.c = R.sub.2 + (L.sub.c - L.sub.s) + (R.sub.c - R.sub.s)/Mwhere; Rc is the mean radius of the component under test Rs is the mean radial separation of the surface of the reference body from the instrument at the two points detected (Lc - Ls) is the change in the instrument output signal upon substitution of the component for the reference body Rc is the radius of the least squares reference circle computed from the pick-up output signal upon traversing the component Rs is the radius of the least squares reference circle computed from the values of the pick-up output signal at the said two diametrically opposite points on the reference body and M is the magnification of the instrument. - View Dependent Claims (2, 3)
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4. A method of determining the separation between two surfaces of a workpiece using a roundness measuring instrument of the type comprising:
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a workpiece table, a pick-up, amplifier means connected to said pick-up, a pick-up mount supporting said pick-up, and means interconnecting said pick-up mount and said workpiece support table such that said pick-up and said table are relatively rotatable about a main axis of the instrument and said pick-up is adjustable radially towards or away from said main axis so as to be brought into contact with a workpiece on said workpiece support table to produce output signals representative of the surface of said workpiece, a displacement transducer having a body connected to one of said pick-up mounts and a fixed frame member which is fixed with respect to said main axis, and a sensing element movable with respect to said body and attached to the other of said fixed frame member and said pick-up mount, and means connected to the output of said pick-up amplifier means and to the output of said displacement transducer and operating to produce an instrument output signal representing the sum of the signals from said pick-up and said displacement transducer, whereby to provide output signals representing the radial displacement of said pick-up over a limited range, said method comprising the steps of; mounting a reference body on the table, obtaining at least two instrument output signals representing the radial separation of the surface of the reference body from the axis of relative rotation at at least two points spaced diametrically opposite one another across said axis of relative rotation, storing said signals, substituting the workpiece under test for the reference body and obtaining two instrument output signals representing the radial separation of each of said two workpiece surfaces from said axis of relative rotation at two points and, computing from said signals and the known dimensions of the said reference body the value of the diameter of a circle including as diametral points the said two points on the said two workpiece surfaces from the expression
space="preserve" listing-type="equation">R.sub.c = R.sub.s + (L.sub.c - L.sub.s) + (R.sub.c - R.sub.s)/Mwhere; Rc is the mean radius of the component under test Rs is the mean radial separation of the surface of the reference body from the instrument at the two points detected (Lc - Ls) is the change in the instrument output signal upon substitution of the component for the reference body Rc is the radius of the least squares reference circle computed from the pick-up output signal upon traversing the component Rs is the radius of the least squares reference circle computed from the values of the pick-up output signal at the said two diametrically opposite points on the reference body and M is the magnification of the instrument.
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Specification