Classifications

• • G—PHYSICS
  • G01—MEASURING; TESTING
  • G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
  • G01B7/00—Measuring arrangements characterised by the use of electric or magnetic techniques
  • G01B7/004—Measuring arrangements characterised by the use of electric or magnetic techniques for measuring coordinates of points
  • G01B7/008—Measuring arrangements characterised by the use of electric or magnetic techniques for measuring coordinates of points using coordinate measuring machines
  • G01B7/012—Contact-making feeler heads therefor
• • G—PHYSICS
  • G01—MEASURING; TESTING
  • G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
  • G01B7/00—Measuring arrangements characterised by the use of electric or magnetic techniques
  • G01B7/002—Constructional details of contacts for gauges actuating one or more contacts

Definitions

• the present invention relates in general to a contact detecting device for use on a Coordinate Measuring Machine (CMM) , and more specifically to a sensing' device that does not employ a flexible coupling, and for an electronic circuit located away from the CMM and which is not subject to spurious signals and also is not time dependent.
• CMM Coordinate Measuring Machine
• a CMM is a device which has three mutually perpendicular axes, each one having attached to it a measurement scale (a linear electronic measuring device) and counter.
• a counter is an electronic device that keeps track of the output of a scale and converts the electronic pulses into a digital output. When a signal is received, the counter will "latch", " that is, the counter will store the exact value it had when the signal was received in a buffer, but continue to keep track of the machines current position as it continues to move.
• the axes on the CMM are commonly known as X which measures left to right, Y which measures front to back, and Z which measures up and down.
• the part of the CMM that moves in the Z direction is called the Z-rail.
• a stylus is attached either directly, or through a probe to the bottom of the Z-rail.
• the stylus is a shaft with a ball on one end and a threaded shank on the opposite end for securing to the frame.
• the axes of the CMM are arranged in such a way that movement of any one, two, or all three of them result in movement of the stylus. When this stylus comes in contact with the workpiece, the three counters must be "latched" by a signal from either a hand switch or an electronic probe.
• a CMM properly equipped with motors, drive shafts, computers, and the like, may have the stylus position under numerical control, however virtually all machines on the market today are equipped with frictionless air bearings and so an operator may position the stylus by grasping the Z-rail and with it position the three axes as required.
• Such a CM is known to be manually controlled.
• An electronic probe is a device, for use on a CMM, whic has a flexible coupling consisting of a moveable and a fixe member, a means for attaching a stylus to the movable membe of the flexible coupling, a means for detecting that th moveable member has been displaced and/or that the stylus ha made contact with the workpiece and a means for signaling th counters to latch.-
• the accuracy of an electronic probe is determined by number of factors as follows:
• a numerically controlled CMM must have its stylu attached to the Z-rail through an electronic probe as ther is no operator to work a hand switch to latch the counters and the flexible coupling incorporated in all know electronic probes is required to prevent damage to th stylus, probe, and/or CMM in the event that the Z-rail doe not stop immediately upon contact with the workpiece.
• the stylus and or entire Z frame may be deflected.
• the work piece is warmed by the operators hands while waiting for the machine to settle.
• the method is inherently slow.
• the method is highly susceptible to variations due to operator's pressure of stylus on the work piece.
• a coordinate measuring machine includes a stylus which is to be brought into contact with the workpiece, a support structure for supporting the stylus and for manually moving the stylus in all directions, a piezoelectric crystal affixed to the structure which becomes excited the moment the stylus makes contact with the workpiece, and an electronic circuit for the ' elimination of spurious signals.and instantaneous output of valid signals.
• Figure 1 is an isometric view of a coordinate measuring machine according to the invention
• Figure 2 is a cutaway view of the bottom of the Z-rail of the coordinate measuring machine; and Figure 3 is a circuit of the coordinate measuring machine.
• System 10 includes a coordinate measuring machine 12 and an electronic circuit 14 for sensing contact.
• Machine 12 includes a stylus 16, a head 18, and a base
• Machine 12 is able to measure the dimensions of a workpiece 24.
• Machine 12 includes a longitudinal carriage 26 which is guided by ways and floats on air bearings to give longitudinal movement in a longitudinal direction 14, and includes a transverse carriage 28 which is guided by ways and floats on air bearings to give transverse movement in a transverse direction 32.
• Head 18 which moves relative to carriage 26, gives vertical movement in a vertical direction 30. It can be seen that an operator holding the head near the bottom can position the stylus throughout the cube defined by the three axes.
• head 18 has a piezoelectric crystal 33 for converting a slight contact force on the stylus 16 to an electrical signal.
• Crystal 33 is connected to the electrical circuit by a first connector 34 and a second connector 36 which are a twisted wire pair, ribbon cable of the like so that both wires will receive the same amount of interference from sources other then the crystal such as radio waves etc.
• First connector 34 has an output terminal pin 38; and second connector 36 has an output terminal pin
• Crystal 33 is shown schematically in both Figures 2 and
• amplifier section 42 includes a first amplifier 50, a second amplifier 52, and a third amplifier 54, each of the 741 type.
• First amplifier 50 has an output terminal pin 1, an input terminal pin 2, an input terminal pin 3, an output terminal pin 5 and an output terminal pin 6.
• a potentiometer 56 which is connected to ground 58, connects through a resistor 60 to output terminal pin 1 on one side of potentiometer 56; and also connects through a resistor 62 to output terminal pin 5 of amplifier 50 on the other side of potentiometer 56.
• a connector 64 extends from input terminal pin 3 of amplifier 50 through a junction 66 and connects to output terminal pin 38 of crystal 33.
• a potentiometer 65 which is connected to ground 67, connects to junction 66.
• 68 extends from input terminal pin 2 of amplifier 50, through a junction 70, through a resistor 72, through a junction 74.
• An output connector 76 extends from output terminal pin 6 of amplifier 50 to junction 74.
• Second amplifier 52 has an input terminal pin 2, an input terminal pin 3, a side terminal pin 7.
• a connector 78 extends from input terminal pin 3 of amplifier 52, through a junction 80 to output terminal pin 40 of crystal 33.
• a resistor 81 connects at one end to junction 70 and connects at its other end to a junction 84.
• a connector 82 extends from input terminal pin 2 of ' amplifier 52, through the junction 84, through a resistor 86, through a junction 88.
• An output connector 90 extends from output terminal pin 6 of amplifier 52 to junction 88.
• a connector 83 extends from side terminal pin 4 to a -5 volt source 85.
• a connector 87 extends from side terminal pin 7 of amplifier 52 to a +5 volt source 89.
• a connector 92 extends from junction 80, through a resistor 94, to a ground 96.
• Third amplifier 54 includes an input terminal pin 2, an input terminal pin 3, and an output terminal pin 6.
• Connector 76 extends from output terminal pin 6 of amplifier 50, through junction 74, through a resistor 98, through a junction 100, to input terminal pin 2 of third amplifier 54.
• a connector 102 extends from junction 100, through a resistor 104, to a junction 103.
• a connector 90 extends from output terminal pin 6 of second amplifier 52, through junction 88, through resistor 106, through junction 108, to input terminal pin 3 of third amplifier 54.
• a connector 110 extends from junction 108, through resistor 112, to ground 114.
• a connector 105 extends from output terminal pin 6 of third amplifier 54, through junction 103, through test point 116, through junction 118 to the comparator section 44, the timer section 46, and the output section 48.
• Comparator section 44 includes a means by which a voltage different from null at junction 118 can be detected and a means for signaling the timer section 46 to begin its cycle.
• Timer section 46 includes a means for sustaining the output signal from comparator section 44 long enough to prevent multiple signals from being sent to . the buffer section in the event that the stylus bounces against the workpiece and generates several signals instead . of one.
• Buffer section 48 includes a means for providing the proper signal to the counters of the coordinate measuring machine. The operation of the circuit is discussed hereafter.
• Piezoelectric crystal 33 is attached to Z-rail 18 of machine 12. When stylus 16 is brought into contact with workpiece 24 to be measured, a shock wave excites crystal 33, and crystal 33 outputs an electric signal.
• Positive and negative signals generated by crystal 33 are sent through wires 34, 36 to pins 38, 40. Both wires 34, 36 are connected respectively to ground 67, 96 the positive by fixed resistor 94, the negative by potentiometer 65. By “tuning" potentiometer 65, the highest common mode rejection ratio is achieved.
• first and second amplifiers 50,52 With differential input and output.
• First amplifier 50 has an offset adjust means of resistors 60, 62 and potentiometer 56.
• the first and second amplifiers have equal gain and therefore signals of equal magnitude at pins 3 of amplifiers 50 and 52 will not be amplified as there will be no potential on the two ends of resistor 81.
• third amplifier 54 is configured as a standard instru ⁇ mentation amplifier, which uses four ratio matched, single array resistors 98, 104, 106, 112. Third amplifier 54 provides a single ended output with a potential of + or - 5 volts. This output is monitored at test point junction 116 to adjust PI potentiometer 65 and P2 potentiometer 56 for highest common mode rejection and null offset.
• the signal at junction 118 is monitored by the comparator section and when it varies from null by a predetermined amount it triggers the timer section 46 which sustains the output signal from long enough to prevent multiple signals from being sent to the buffer section in the event that the stylus bounces against the workpiece and generates several signals instead of one.
• the buffer section 48 sends the signal to the counters of the coordinate measuring machine.
• spurious signals from sources other then the crystal such as radio waves or noise from electric motors, will act equally on both wires of the twisted pair 34, 36 and will not result in a signal at junction 118.
• Signals coming from the crystal will act deferentially on amplifier section 42 and will result in a variation from null at junction 118.

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• Physics & Mathematics (AREA)
• General Physics & Mathematics (AREA)
• Measurement Of Length, Angles, Or The Like Using Electric Or Magnetic Means (AREA)
• Length Measuring Devices With Unspecified Measuring Means (AREA)

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Citations (5)

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• 1989
  • 1989-03-09 WO PCT/US1989/000918 patent/WO1989008817A1/en not_active Application Discontinuation
  • 1989-03-09 EP EP19890903616 patent/EP0362336A4/en not_active Withdrawn
  • 1989-03-09 AU AU32833/89A patent/AU3283389A/en not_active Abandoned

Patent Citations (5)

Non-Patent Citations (2)

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