SU572645A1 - Apparatus for measuring angular positions of discontinuities and shape elements of bodies of rotation - Google Patents

Description

which is connected to the sensor attacked the reference, the shift register, the first input of which is connected to the output of the unit for setting the measurement results fixation rate, and the synchronization unit with one group of inputs connected to the outputs of the switch, the other to the outputs of the shift register, one output connected to the second input of the pulse phase meter, and the other to the second inputs of the indicator and shift register.

The unit for setting the rate of fixation of measurement results can be performed, for example, in the form of a conversion device with a controlled conversion factor.

The drawing shows a block diagram of the proposed device.

The monitored part 1 is placed between the light source 2, the photodiode of the sensor 3, the position of the monitored holes, and the photodiode of the sensor 4 of the origin. The sensor 3 is connected to a signal generation unit 5, including, for example, an amplitude maximum extraction circuit, an amplifier and amplitude discriminator, and further, via a pulse phase meter 6 with an indicator 7. The output of the signal generation unit 5 is connected to the signal input of the switch 8, the control input which is associated with the photodiode of the reference 4 sensor.

The output of the switch 8 is connected to the input of the synchronization unit 9. The synchronization unit by the second group of inputs (by the number of frames of the switch 8) is connected to the outputs of the shift register 10. The output of the synchronization unit is connected to the second input of the control trigger of the pulse phase meter 6. The block 11 that specifies the measurement results fixation rate is connected to the output 4 by the input - with the shift register 10. The second input of the shift register is connected to the button “Start.

The proposed device works as follows.

When combining the light source 2, the monitored hole of the part 1 and the sensor position of the monitored holes on the sensor 3, a signal is output which is fed to the signal generation unit 5. From the signal generated by this circuit, a trigger is triggered by a pulse phase meter 6, which produces a pulse corresponding to the time interval between the passage in front of the sensor 3 of two adjacent openings of the test piece and controlling the pulse phase meter generator. The generator produces pulses during this interval, the number of which is determined by the counter of the same pulse phase meter. The number of generator pulses corresponds to the time interval between the passage in front of the sensor of two adjacent holes of the monitored part. If the part has a uniform rotation, then the number of pulses mentioned is proportional to the angular position of these holes. In this form, the indicator indicator 7 is continuous at a fast pace (depending on the speed of rotation of the part being monitored) the results of the changes are replaced.

Ensuring the pace of recording the measurement results, which is easy to perceive by the operator, is carried out as follows.

When the start signal arrives (pressing the start button), the shift

The register 10 and the control trigger of the pulse phase meter 6 are brought to the ready state. The shift register generates the enabling pulses which are fed to the synchronization unit 9. To signal input

the switch 8 receives a signal from the output of the signal generation unit 5 and is transmitted to the synchronization unit 9. This signal "is reset every time a signal is received from the originating sensor 4. When signals to the synchronization unit 3 are simultaneously received from the shift register 10 and the switch 8, a signal appears at the output of the element of the synchronization unit 9, which triggers the control trigger of the pulse phase meter 6. The measurement result appears in the indicator. The synchronization unit 3 is locked until a "Reset" signal arrives from the unit 11, which sets the measurement results fixation rate, which returns the synchronization unit 9 to the initial state. The time through which the signal from the unit 11 sets the tempo of fixing the measurement results is set by the operator using the switch.

Securing the sequence of measuring the mutual angular position of the holes is as follows.

When the "Start" signal arrives, the mutual angular position of the first and second holes is measured (counting in the direction of rotation from the technological hole). Further, the shift register 10 is shifted after each measurement by one from the signal coming from the block 11, which sets the measurement results fixation rate.

The device thus described allows for a continuous continuous rotation of the monitored part to produce a consistent measurement of the chalk center distances in

tempo providing visual observation of measurement results. If in the proposed device to use the generator generator with a frequency of 5 MHz, the intrinsic error of the device when checking the disk

synchronization is 0.02%, which is less than 1 micron in diameter of 200 mm.

Claims (2)

1. USSR author's certificate No. 371471, cl. G 01B 7/30, 1973. 2.Description to rac. the proposal number 177 from 02.03.73.