Torque control system and method
First Claim
1. A torque control system for controlling the torque specification of a fastener joint, said system comprising,an air tool having a solenoid valve assembly for assembling a fastener joint to a torque specification within a range of acceptable torque specifications,said solenoid valve assembly including a solenoid, a valve member and a throttle valve, which during operation of said air tool are energized, open and activated, respectively, to permit the flow of line pressure air for assembly of said fastener joint, and upon completion of assembly of said fastener joint, said solenoid and valve member are de-energized and closed, to prevent the flow of line pressure air operating said tool,means for measuring the torque specification applied to an assembled fastener joint,means for comparing the torque specification applied to the assembled fastener joint with a desired set point within the acceptable torque specification range to calculate a torque difference therebetween, andmeans for adjusting the torque specification of a fastener joint to be assembled based upon a correction factor applied to the difference from said assembled fastener joint to obtain a torque specification for the next fastener joint assembled by said air tool upon re-energizing and opening said solenoid and valve member, respectively, and de-activating and activating said throttle valve, at a torque specification closer to the desired set point torque specification.
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Accused Products
Abstract
An air tool torque control system includes a controller operative to independently control two air tools with continuous programmed adjustment of the torque shut off point for each tool after each fastener joint is made. The torque specification is measured for each fastener joint made, is verified as being within an acceptable torque range, is compared to the set point of that torque specification range to determine the variation therebetween, and is then adjusted toward the mid point by the applicable correction factor for the variation determined to continuously compensate for variations in joint rate, line pressure and/or tool output. To enhance the effectiveness of the system, fast acting solenoid valves utilizing line pressure to assist in valve closure may be included to improve shut off control. Torque select devices may also be included at the assembly station to allow selective switching of each tool to preprogrammed discrete torque ranges for specific fastener applications performed at that station.
53 Citations
6 Claims
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1. A torque control system for controlling the torque specification of a fastener joint, said system comprising,
an air tool having a solenoid valve assembly for assembling a fastener joint to a torque specification within a range of acceptable torque specifications, said solenoid valve assembly including a solenoid, a valve member and a throttle valve, which during operation of said air tool are energized, open and activated, respectively, to permit the flow of line pressure air for assembly of said fastener joint, and upon completion of assembly of said fastener joint, said solenoid and valve member are de-energized and closed, to prevent the flow of line pressure air operating said tool, means for measuring the torque specification applied to an assembled fastener joint, means for comparing the torque specification applied to the assembled fastener joint with a desired set point within the acceptable torque specification range to calculate a torque difference therebetween, and means for adjusting the torque specification of a fastener joint to be assembled based upon a correction factor applied to the difference from said assembled fastener joint to obtain a torque specification for the next fastener joint assembled by said air tool upon re-energizing and opening said solenoid and valve member, respectively, and de-activating and activating said throttle valve, at a torque specification closer to the desired set point torque specification.
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2. A method for controlling the torque shut off point of an air tool comprising the steps of:
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assembling a fastener joint to a preprogrammed torque specification within a range of acceptable preprogrammed torque specifications using an air tool having a solenoid valve assembly wherein, said solenoid valve assembly includes a solenoid, a valve member and a throttle valve, which during operation of said air tool and solenoid, valve member and throttle valve are energized, open and activated, respectively, to permit the flow of line pressure air for assembling said fastener joint, and said solenoid and valve member, upon completion of assembly of said fastener joint, are de-energized and closed, respectively, to prevent the flow of line pressure air operating said tool, measuring the torque specification of the assembled fastener joint, comparing the measured torque specification with a desired set point torque specification within the range of acceptable torque specifications, calculating a torque correction factor based upon the difference between the measured torque specification and the desired set point torque specification, adjusting the shut off point of the air tool to obtain a subsequent fastener joint having a torque specification nearer the desired set point torque specification, providing said solenoid valve assembly with line pressure air to shut off the air tool at the adjusted shut off point, and utilizing line pressure air and said throttle valve to maintain said solenoid valve assembly and air tool in a non-operating condition prior to de-activation of said throttle valve in preparation for assembly of a subsequent fastener point.
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3. An air tool torque control system comprising an air tool for assembling fastener joints to a desired torque specification,
a controller having a torque select device for selecting a preprogrammed desired torque specification for assembly of a specified fastener joint, and a preprogrammed torque shut off point for shutting off said air tool upon assembly of a fastener to the desired torque specification, and said controller having means to control said air tool by continuous programmed adjustment of said torque shut off point by measuring a torque specification of each fastener torque specification range with said measured torque specification of said assembled fastener joints, and adjusting the preprogrammed torque shut off point of said tool within said controller using a calculated correction factor determined in part by a percent difference obtained from the comparison of acceptable and measured torque specifications.
Specification