Dynamic balancer for rotating bodies and method of manufacturing same
First Claim
1. A balancer mechanism for dynamically balancing a motor-driven rotatable assembly comprising, in combination, a body adapted to be rotated about an axis of rotation, the body having a face generally radial with respect to the said axis and having a circular shoulder on the face coaxial with the said axis in the direction away from the face so that the shoulder and the adjacent area of the face define an undercut annular recess adapted for positive retention of a slightly radially expanded metal ring therein;
- a hollow substantially rigid but slightly radially expanded ring lodged in the said recess bearing against the said face and shoulder, the ring defining a closed toroidal cavity, the shoulder having a depth of slightly less than the sectional diameter of the ring before said radial expansion; and
a flowable material of substantial density contained within the said cavity, the volume of the material being within the range of approximately one-third to approximately one-half of the volume of the cavity so that the ring and flowable material are effective to counteract unbalance of the assembly during rotation thereof.
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Abstract
A rotating mechanism such as a model aircraft propeller shaft is balanced by a dynamic balancing apparatus comprising a disc rotating with the shaft and a stainless steel O-ring partly filled with mercury lodged in an undercut groove in the face of the disc. The method of manufacture involves placing the ring in the groove and compressing the ring to expand it radially into the undercut area.
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Citations
6 Claims
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1. A balancer mechanism for dynamically balancing a motor-driven rotatable assembly comprising, in combination, a body adapted to be rotated about an axis of rotation, the body having a face generally radial with respect to the said axis and having a circular shoulder on the face coaxial with the said axis in the direction away from the face so that the shoulder and the adjacent area of the face define an undercut annular recess adapted for positive retention of a slightly radially expanded metal ring therein;
- a hollow substantially rigid but slightly radially expanded ring lodged in the said recess bearing against the said face and shoulder, the ring defining a closed toroidal cavity, the shoulder having a depth of slightly less than the sectional diameter of the ring before said radial expansion; and
a flowable material of substantial density contained within the said cavity, the volume of the material being within the range of approximately one-third to approximately one-half of the volume of the cavity so that the ring and flowable material are effective to counteract unbalance of the assembly during rotation thereof. - View Dependent Claims (2, 3, 4)
- a hollow substantially rigid but slightly radially expanded ring lodged in the said recess bearing against the said face and shoulder, the ring defining a closed toroidal cavity, the shoulder having a depth of slightly less than the sectional diameter of the ring before said radial expansion; and
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5. A method of manufacturing a dynamic balancer comprising the steps of:
- fabricating a closed hollow ring of expandable metal which is partially filled with a high density fluid such as mercury;
fabricating a support member for the ring and of such design as to be rotatable with a motor-driven rotatable body to be balanced;
forming in said member a groove which is undercut at the radially outward face thereof, which is of an overall width and diameter to closely receive the ring therein, but which is of a depth slightly less than the sectional diameter of the ring;
placing the ring in the groove; and
thereafter compressing the ring to radially expand the ring into the undercut groove area to lock the ring and support member together.
- fabricating a closed hollow ring of expandable metal which is partially filled with a high density fluid such as mercury;
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6. A method of balancing a rotatable body comprising the steps of:
- fabricating a closed, hollow, welded steel ring which is partially filled with mercury;
fabricating a support member for receiving the ring within a groove which is undercut at the radially outward face thereof and supporting the ring in a position within said groove which is concentric with the center of rotation of said body;
effecting an elastic interconnection between the ring and support member which results in slight permanent radial deformation of the ring thereby positioning a portion of the ring within said undercut to hold the ring in said position without further support; and
rotating the body to distribute the mercury so as to produce a dynamic balance condition.
- fabricating a closed, hollow, welded steel ring which is partially filled with mercury;
Specification