DE2053259A1 - Measurement data classifier - Google Patents

Description

Measurement data classification device The invention relates to a measurement data classification device for the automatic checking of dimensions achieved in production. Known devices of this type make it possible to measure lengths or diameters of manufactured workpieces to measure by electrical means and to divide the workpieces into different quality classes, but it is impossible to tell what percentage of scrap you are at the moment produced.

The invention is based on the task of a measurement data classifier to construct that triggers an alarm when a certain percentage rejects is exceeded. One special; simple solution results if according to the invention a staircase voltage generator that can be detached for each measurement is provided if an electromechanical actual value transmitter is provided, its Output is connected to the input of a first operational amplifier, if the output of the first operational amplifier via a third adding resistor and the output of the staircase voltage generator through a fourth adding resistor to the input of a second operational amplifier used to form the difference is connected and if a counter from the output of the second operational amplifier can be influenced.

Further details and useful developments are given below anhsnd described in more detail an embodiment shown in the drawing and explained.

1 shows a block diagram of a hot data classifying device and FIG. 2 shows a circuit diagram of an adapter unit which is used for connecting a measurement data classifying device according to Fig. 1 to a control center.

The measurement data classifier contains a first operational amplifier 15, which is fed back via an adjustable resistor 16. At the entrance of the first operational amplifier are connected via a first adding resistor 13 Minimum scale divider 11 and, via a second adding resistor 14, an actual value transmitter 12 connected. At the output of the first operational amplifier is firstly a Display instrument 17 and, secondly, a second via a third adding resistor 18 Operational amplifier 20 connected. The output of the second operational amplifier 20 is connected to a first input of a bistable multivibrator 21. At one A release button 22 is connected to the second input of the bistable flip-flop 21.

The output of the bistable multivibrator 21 is via a first AND element 24 connected to a binary counter 25 at a second input of the AND element 24 a clock 23 is connected. The pulse repetition frequency of the clock generator is when using electromagnetic counting devices 30, 31, 32 preferably about 10 Hz. If electronic counters 30, 31> 32 are used, the pulse repetition frequency on the other hand be more than 10 kllz.

A staircase voltage generator is connected to four output lines of the binary counter? 5 26 connected, the output of which via a fourth adding resistor 19 with the Input of the second operational amplifier 20 is connected.

There is also one on the four output lines of the binary counter 25 Binary-decimal decoder 27 connected. Its ten output lines control one Display device 28.

A reject counter is connected to the output line 0 of the binary-decimal decoder 27 30 connected. A second AND element is connected to the output lines 1, 2, 8 and 9 29 a first input of an OR gate 33 is connected, with its second output the reject counter 30 is connected to the release button 22 is also a total counter 32 connected. The OR gate 33 has an error limit counter 34 and the total counter 32 is connected to a group counter 35. The error limit counter 34 and the group counter 35 can lock the release button 22 via a third AND element 36.

The mode of operation of the measurement data classifier and the sequence of a Measurements are described below. With the minimal size adjuster 11, the minimum dimension of the to be measured Workpiece set. then - the workpiece is pushed under the actual value transmitter 12. Minimum dimension adjuster 11 and actual value transmitter 12 can be designed as potentiometers with dial gauges stay in contact. However, inductive transducers are even better suited. the The difference between the setpoint value and the actual value is determined in the first operational amplifier 15 reinforced.

The negative feedback resistor 16 is used to set the measuring range. The analog value for the error can be read off directly on the display instrument 17 will. Immediately after inserting the workpiece to be measured into the actual encoder 12 press the release button 22; the release button sets the bistable multivibrator in their second stable position. This allows the output pulses via the AND element 24 of the clock 23 get to the binary counter 25. The binary counter 25 consists of four flip-flops; its four output lines correspond to the numbers 1, 2, 4 and 8. The staircase voltage generator 26 generates from the output signal of the binary counter a step-like increase in tension. The time interval between the individual steps is equal to the distance between the pulses of the clock generator 23.

The staircase voltage and the output of the first operational amplifier 15 are connected to the second operational amplifier via an adding resistor 18, 19 20 supplied.

As soon as the staircase voltage has become the same as the output voltage of the first operational amplifier 15, becomes the output voltage of the second operational amplifier 20 to zero and the bistable multivibrator 21 is in its first stable state tilted back. There can now no more pulses from the clock 23 to the binary counter 25 arrive because the AND gate 24 is blocked. The binary-decimal decoder 27 remains now stand just like the binary counter 25 and the display device 28 shows the class of the workpiece, i.e. the deviation of the Measure of Target size. Since the minimum dimension adjuster 11 is used to set the lower limit of the dimension class 0 is the lower tolerance limit and class 9 is the upper tolerance limit If the numerical value 9 is exceeded, the binary decimal decoder is set back to 0, i.e. H. reset to lower limit or reject. With the one described so far Arrangement, it is possible to determine the error class for each individual measurement. Another task of the data classifier, however, is to trigger an alarm? when too much scrap is produced.

The error limit counter 34 and the group counter ~ 35 serve this purpose. The group counter 35 always counts from one to ten and then goes back to one deferred. Like the total counter 32, it counts all measurements. Against that counts the error limit counter 34, how often the classes 0, 1, 2, 8 and 9 occur, so the Limit classes. In the exemplary embodiment, the error limit counter 34 is set to the maximum number 3 set, d. H. an alarm is triggered if more than 10 measurements are taken than three times the limit classes occur. The error limit counter 34 remains after Reaching its maximum number of 3 stand. It is reset by the group counter 35, when it jumps back from 10 to 1. The third AND gate 36 determines if at the same time the error limit counter 34 shows the number 3 and the group counter 35 shows a number 10 or less than 10.

Then it locks the release button 22, i. H. you cannot take another measurement without first investigating the cause of the error. The release of further Measurements can only be made from the control center. The number of three errors within out of ten measurements is completely arbitrary and other numbers can be chosen will.

When using electronic counters it can e.g. B. be precise, train the group counter 35 as a binary counter and only from one to eight to count. The counters 30 and 32 at the measuring station are advantageously designed in such a way that that you can set upper limit values on them. In the case of the one described below query from the control center then causes the counters at the measuring station to be completed count in forward direction up to the set limit value, whereby they count the counting pulses received from clock 23. The corresponding counters in the control center are used as down counters formed, which also from the upper limit values before the start of the interrogation counting can be set. You receive the same counting impulses as the counters at the measuring station and then reach the number counted at the measuring station when the counters at the measuring station reach the Reach the upper limit and be turned off.

In Fig. 2 it is shown how the measurement data classifier described, which is framed with a broken line and marked with the number 37, can be connected to a control center 39 via an adapter unit 38. Different From the representation of Fig. 1 is now the release button 22 with the bistable Trigger stage 21 no longer directly, but via a series connection of two break contacts 461 and 451 connected, actuated by a 7th relay 46 and vQn a 6th relay 45 are between the reset input of the release button 22 and a negative line 71 is a first relay 40. A second relay 41 can be via a counter contact 301 can be connected between the negative line 71 and a positive line 70. Between the plus line 70 and the minus line 71 are still connected in series as follows: 1. a counter contact 321 and a third relay 42, 2. two normally open contacts 412 and 422 and a fourth relay 43, 3rd a resistor 51, the movable and a fixed contact of an interchangeable cladding 442 and a capacitor 50, 4. the movable and one fixed contact of a changeover switch 431 and a fifth relay 44, 5. a normally open contact 471 and a sixth relay 45, 6. a Normally open contact 453 and a first incandescent lamp 60, 7. a call button "59 a resistor 56 and a second incandescent lamp 61 and 8, a normally open contact 401, a resistor 57 and a seventh relay 46.

The second fixed contact of the toggle switch 442 is with the fifth relay 44 connected. The second "" fe "standing contact of the changeover switch 43l is connected to the sixth relay 45 via a resistor 52. From the connection point the series circuit leads between the resistor 56 and the second incandescent lamp 61 from a diode 54, an eighth relay 47 and a resistor 53 to the Ninus line 71. The connection point between the resistor 56 and the second incandescent lamp 61 is still with the connection point between the eighth relay 47 and the resistor 53 connected. Finally, is the connection point between resistor 56 and the second incandescent lamp 61 via a diode 55 with the connection point between the resistor 57 and the seventh relay 46 are connected.

From this connection point between the resistor 57 and the seventh Relay 46 is connected in series with a resistor 58 and a normally open contact 463 ur positive cable 70.

In the control center 39 lies between the positive line 70 and the negative line 71 a series connection of a read-in key 65, a switch 66 and a display key 64. The switch 66 and the release button 64 are coupled to one another in such a way that that only one of the two switches can be closed at a time.

From the connection point between the switch 66 and the release button 64 leads a fourth incandescent lamp 63 to the negative line 71 and a line to the connection point between the diode 54 and the eighth relay 47. Between the output of the first AND element 24 and the negative lead 71 is a third incandescent lamp 62. Between the reject counter 30 and the ninus line 71 is a in the control center Second scrap counter 30 'is arranged in the same way in the control center a second total counter 32 'is provided X The two second counters 30' and 32 'are via a combination of three switches 411, 421 and 452 to the output of the clock generator 23 connected.

The error limit counter 34 and the group counter 35 are over one Normally open contact 462 is connected to the positive line 70. In the same way are the Reject counter 30 and total counter 32 via a normally open contact 441 to the positive line 70 connected.

The following paragraphs describe how the adapter unit works 38 and the control center 39. It should be noted that several measurement data classifiers 37 attached via an equal number of adapter units 38 to the same control center 39.

can be closed.

The first function of the center 39 is the individual measuring stations to release and also to block if too much scrap is produced. If too much Scrap is produced.

comes from the AND gate 36, a locking signal to the input of the release button 22. With this locking signal, the first relay 40 is actuated at the same time. The first Relay 40 closes the normally open contact 401. The seventh relay 46 'thus receives over gd «a resistor 57 current. At the same time, the two incandescent lamps 61 in the Adapter unit 38 and 63 in the control center 39 via the two diodes 55 and 54 current. The error is thus made visually visible.

The eighth relay 47 cannot respond because the two connections its winding on the one hand via the diode 54 and on the other hand directly from the connecting line to the second incandescent lamp 61 obtained the same potential.

When the seventh relay 46 responds, the normally closed contact 461, the between the input of the release button and the clock 21 is open. One further actuation of the release button 22 thus remains ineffective. The working contact 463 holds the seventh relay 46 via the resistor 58, while the other normally open contact 462 resets the error limit counter 34 to zero.

As a result, the first relay 40 and the normally open contact 401 arrive again in their starting position.

Only after actuation of the release button 64 in the control center 39 is the release button 22 is released again. With this actuation of the release button 64 become the two ends of the winding of the seventh relay 46 via the two diodes 54 and 55 placed at the same potential. Therefore, the seventh relay 46 drops out and the initial state is reached again.

The second function of the control center is to post preselected Interrogate the meter readings of the individual measurement data classifying devices and to compare with the setpoints.

The procedure used for this is already described above. When pressing the call button 59 in the adapter unit 38 receives the two bulbs 61 and 63 through resistor 56 and diode 54 voltage. The eighth relay 47 cannot respond, since the two connections of its winding via the diode 54 and the connecting line to the incandescent lamp 61 obtained the same potential. The seventh relay 46 is through the Diode 55 blocked.

If the read-in key 65 is now actuated in the control center 39, then speaks the eighth relay 47 briefly on. The sixth relay receives via the normally open contact 471 45 current and is held therein by the changeover switch 431 via the resistor 52 The normally open contact 453 switches on the first incandescent lamp 60 0 and thus indicates that a read-in command has been given. The normally open contact 452 sets the output of the clock 23 via the working contacts 411 and 421 to the scrap and total counters 30 and 32 in the measurement data classifier 37 and in the same way än the counters 30 'and 32' at headquarters 39.

The normally closed contact 451 is opened and causes the release button 22 becomes ineffective. The clock pulses fill counters 30 and 32 up to the preselected one Number, while for the counters 30 'and 32' in the control center from the preselected numbers is counted down. This makes it possible to check the counter reading with relatively few pulses to be transferred to the head office at the workplace.

If the preselected numbers in the measurement data classifier U 37 are reached, the relays 41 and 4, 2 are actuated via the counter contacts 301 and 321. above the Arbett contacts 412 and 422 then responds to the fourth relay 43, while the Normally closed contacts 411 and 421 open and thus prevent further counting pulses in get to the headquarters.

To operate the fourth relay 43, the changeover switch 431 is on the fifth relay 44 placed. The sixth relay 45 drops out. That has to Consequence that 1. the first bulb 60, which is used for reading display, goes out that 2. the clock 23 is finally separated from the center 39 and that 3. with the Closing the normally closed contact 451 the release button 22 is released again.

When the normally open contact 441 is closed, the two counters 30 and 32 reset to zero. The fifth relay 44 remains activated only briefly, because the fourth relay 43 when the counters are reset to zero because of the opening of contacts 412 and 422 falls; and because the fifth relay 44 then receives voltage only from the capacitor 50. So it can only remain actuated for as long the capacitor voltage is above the response voltage. With the fall of the fifth Relay 44 is then returned to its initial state.

The recording of the counter readings of the individual measurement data classifiers 37 with the help of further counters in the control center 39 is only one of the various possibilities. In the same way, these counter readings can be transferred to punched tape printers via measuring point switches can be read.

Through the connecting line from the output of the AND gate 24 to the third Incandescent lamp 62 in the control center is there still another option? that he can also determine the exact size of an individual measurement object in the control center. In the simplest illustrated case, you need for each individual measurement just count how often the third bulb 62 lights up - and you know which one Measured value has been measured.

Instead of the third incandescent lamp 62, mean value and spread calculators could also be used can be connected via measuring point switch. Before just using one Clock 23 with a higher frequency is required.

Claims (14)

Expectations 1. Measurement data classifier for automatic testing in production achieved dimensions, characterized in that a triggerable with each measurement Staircase voltage generator (26) is provided that an electromechanical actual value transmitter (12) is provided, the output of which is connected to the input of a first operational amplifier (15) is connected; that the output of the first operational amplifier (15) over a third adding resistor (18) and the output of the staircase voltage generator (26) via a fourth adding resistor (19) to the input of a second, for Difference formation serving operational amplifier (20) is connected, and that a counter (25, 27, 29, 30) from the output of the second operational amplifier (20) can be influenced. 2. Measurement data classifier according to claim 1, characterized in that that to trigger the staircase voltage generator (26) one in this order from a release button (22), a bistable flip-flop (21), a first AND element (24) and a binary counter (25) existing series connection is provided. 3. Measurement data classifier according to claim 2, characterized in that that a clock generator (23) is connected to a second input of the AND element (24) is, which is a pulse train from whose repetition frequency when using electromagnetic Counter (25, 27, 28, 30, 31, 32) is preferably about 10 Hz. 4. measurement data classifier according to claim 2, characterized in that that a clock generator (23) is connected to a second input of the AND element (24) is that emits a pulse train whose repetition frequency when using electronic Counter is greater than 10 kHz. 5. measurement data classifier according to claim 3 or 4, characterized in that that a binary-decimal decoder (27) is connected to the output of the binary counter (25) is, whose ten output lines lead to a display device (28). 6. Nei3datenklassiergerät according to claim 5, characterized in that that a reject counter (30) is connected to the output line (0). 7. measurement data classifier according to claim 6 or 5, characterized in that that a limit class counter is connected to the output lines (1, 2, 8, 9) via a second AND element (29) connected. 8. measurement data classifier according to one of claims 2 to 7, characterized marked that a total counter (32) is connected to the release button (22) is. 9. measurement data classifier according to claim 8, characterized in that that to the reject counter (30) and to the limit class counter (31) via an OR gate (33) an error limit counter (34) is connected to the maximum permissible Number of errors in a group is counted by a group counter on the total counter (32) (35) is connected, which preferably counts to 10 and then back to his Zero setting goes back, and that the error limit counter (34) and the group counter Block the release button (22) via a third AND element (36). 10. Measurement data classifier according to one of claims 1 to 9, characterized characterized in that a center (39) for interrogating the counter readings of the reject counter (30) and the total counter (32) is provided. 11. Measurement data classifier according to claim 10, characterized in that that a release button (64) and a read-in button (65) are arranged in the control center (39) are. 12. Measurement data classifier according to claim 10 or 11, characterized in that that the control center (39) is preceded by an adapter unit (38). 13. Neßdatenklassiergerät according to claim 12, characterized in that that a call button (59) is provided in the adapter unit (38), which is connected to the control center (39) is connected. 14. Measurement data classifier according to claim 12 or 13, characterized in that that in the adapter unit (39) an incandescent lamp (60) is provided for read-in display is.