DD203886A1 - CONTROL AND EVALUATION DEVICE FOR MISTAKE AND MULTI-BOW CONTROL AND THICKNESS MEASUREMENT - Google Patents

Abstract

The invention relates to a control and evaluation device for false and multiple sheet control and thickness measurement of sheet or web-shaped materials in loading u. Processing machines. The object is to provide a vibration compensating device, d. Smaller Meszwertgeber required and makes the evaluation so that only comparison values of a side of the transport path are required. The task is solved by the fact that there are at least three Meszwertgeber on the base body and this is laterally arranged on the transport path of the materials, as well as the Meszobjekt to be controlled at the time of measurement is located in one of the two aeuszeren Meszwertgeber and this arrangement for evaluation and Determining the Meszwerte on Meszwertaenderungen by mechanical vibrations and changes due to the presence of the Meszobjektes in Meszwertgeber serving evaluation is arranged downstream. The invention reduces the amount of material and assembly time and reduces the size of such devices. With the possible use of inductive transducers, the sensitivity is also increased.

Description

-A-

Control and evaluation device for faulty and multiple sheet control and thickness measurement

Field of application of the invention

The invention relates to a control and evaluation device for false and multiple sheet control and thickness measurement of sheet or web-like materials in processing and processing machines.

Characteristic of the known technical solutions

Known is the DD-PS 149,053 a capacitive control and evaluation device -Binding and printing machines, in which a capacitor plate of the capacitive transmitter is separated at two points and both capacitor plates are each on a body. The main body is elastically supported on both sides. During the measuring process, the printing material is located between the middle part of the separated Kondensat'orplatte and the second capacitor plate.

The disadvantage here is that the main body must extend over the entire width of the printing material and beyond, since due to the Auswertungsweise the two comparison capacitors must be located on both sides of the printing material. In addition to the complex structure, this arrangement requires additional technical measures to prevent mechanical vibrations along the body with stronger vibrations.

Object of the invention

It is the object of the invention to provide a control and evaluation, the lower. Requires effort, has smaller dimensions and reduces assembly costs,

Explanation of the essence of the invention

The technical object of the invention is to make the transmitter assembly in the machine and the associated evaluation circuit so that the body kept small with the associated transducers and the evaluation by the evaluation takes place so that only comparative values of one side of the transport path are required.

The object is achieved in that there are at least three sensors on the body and this is arranged laterally on the transport path of the materials, as well as the object to be controlled at the time of measurement is in one of the two external transmitter and this arrangement for evaluation and Determination of the measured values is followed by changes in the measured value due to mechanical vibrations and changes due to the presence of the object to be measured in the evaluator serving for the evaluation.

For the realization of a non-contact measurement, it is advantageous that capacitive sensors are arranged on the base body.

An increase in the sensitivity of the device is achieved in that inductive transducers are arranged on the base body.

Increased sensitivity in a non-contact measurement is achieved by arranging capacitive and inductive transducers on the base body.

Effectively, the transmitter array is characterized in that the arranged on the body inductive transmitter with these opposite transducers are inductively coupled.

It is advantageous to use dynamic pickup systems as inductive transducers. Preferably, the control and evaluation device is designed such that in the evaluation circuit, the coming of capacitive sensors Y1, Y2, Y3 and Y4, capacitance measuring each an amplifier and this is followed by a rectifier and the outputs of the rectifier with an arithmetic circuit are connected. The arithmetic circuit is advantageously chosen so that in the arithmetic circuit the outputs C ₁ and C "of the first and second rectifier downstream of a first subtractor and this a coefficient potentiometer, a multiplier following this, which is connected with its output to a division circuit, another with is connected downstream of the output of the division circuit connected Subtrahierschalttmg and that connected to the coefficient potentiometer input of the multiplier is connected together with the output C ^ of the first rectifier via a summing circuit to a second input of the division circuit, and that the output of the third rectifier C ^ is connected to the second input of the division circuit following subtraction.

A control and evaluation device proves to be useful, in which the inductance measuring bridges which are compared to the signals Y1, Y2, Y3 and Y4 coming from the inductive measuring sensors are each followed by an amplifier and a rectifier in each case, and the outputs of the rectifier.

For this purpose, the arithmetic circuit is advantageously designed so that the outputs of the first and second rectifier are followed by a first subtracting circuit and connected via a coefficient circuit to the first input of a summation circuit, that the second input of the summing circuit to the output of the first rectifier and the output of the summing circuit are connected to the first input of a subsequent second subtracting circuit and the output of the third rectifier are connected to the second input of the second subtracting circuit.

The arithmetic circuit is also effectively characterized by the fact that each of the outputs of the rectifiers is assigned an analogue / digital converter and these are connected to a digital computer. It is advantageous if at least one of the basic bodies is mounted in elastic filler material and with this in housed a housing.

The transmitter arrangement can be designed so that the number of transducers on the body, beyond three transducers, is identical to the number of materials to be controlled. It is also advantageous to mount the housing with the main body mounted in the elastic filler adjustable transversely to the transport direction on a fastener.

The invention will be explained in more detail below with reference to some Ausfuhrungsbei games:

In the accompanying drawings show:

1 shows the schematic arrangement of the capacitive Meßwertgeber,

2 / the schematic arrangement of inductive sensors,

Pig. 3s the evaluation circuit for the capacitive transducers,

Pig. 4: the evaluation circuit for the inductive transducers.

The arrangement of capacitive transducers shown in Figure 1 is mounted on the side of the machine. The capacitor plates 1, 2 and 3 serve as capacitive transducers. They are mounted together on the base body 4 and are supported in the housing 5 by the elastic filler 6 located therein. As filler β, it is possible to use isweise foam. Characterized in that the storage of the base body 4 is equally present at all surface points, vibrations along the longitudinal axis of the base body 4 can not occur.

As a counter electrode to the capacitor plates 1, 2 and 3 is the capacitor plate 7. Are expected by vibrations of the machine vibrations along the longitudinal axis of the capacitor plate 7, then these can be prevented by an elastic mounting of the capacitor plate 7 in -Allegtisch. The transport of the measurement object 8 takes place in the representation of Figure 1 and 2 in the plane of the drawing. The capacitive sensors 1, 2 with the common counter electrode 7 provide the comparison values Y1 and Y2. The measured value Y3 of the object to be measured is supplied by the capacitive sensor 3, which 'also has the capacitor plate 7 as a counterelectrode. Separate counter electrodes, which are applied together on a further base body 4, would also be possible. All values (Y1, Y2, Y3, Y4) are fed to an evaluation device 10.

FIG. 2 shows an arrangement of inductive transducers. In this embodiment of the invention are located on the base body 4, three inductors. The first coil 13 and the second coil 14 provide the comparison values Y 1 and Y 2. The measured value Y3 is obtained by the third coil 15. Bie change in the inductance of the coil according to the position of the coil to the feed table 9 is carried out by the sensing elements 16, 17, 18, which are each connected by a spring 12 to the housing 5. The main body 4 with the coils 13, 14, 15 is stored in the filler б. The sensing elements are movably mounted inside the bobbins. At the top of the sensing elements 16, 17, 18 and measuring wheels can be located. The values Y1, Y2, Y3 are fed to an evaluation device 11.

In the measurement of measuring objects 8, which have a different width or have different formats, it is advantageous to arrange so many other transducers transversely to the transport direction that all formats can be measured. The control of the transmitter is then carried out so that three adjacent sensors provide values and the DUT 8 is located in an outer of the three transmitter. It is also possible to adjust the housing adjustable to attach a fastener.

The evaluation circuit for the capacitive transducer arrangement is shown in FIG. Its task is to determine the instantaneous position of the third capacitor plate 3 to the capacitor plate 7 and thus the capacitance, which exists without the DUT 8 in the dielectric with the aid of the measured comparison values Y1 and Y2 at a changed by vibration conditions of the base body 4 to the capacitor plate would. Furthermore, it must compare the measured value Y3 with the value determined by the comparison values Y1 and Y2.

In the evaluation circuit 10, the value to be determined is determined on the basis of the following relationship:

C ₁ + 0.5 (G ₂ - C ₁ )

In this case, it is assumed that the value to be determined is to be compared with a series connection of C ₁ and the respective adjacent differential capacitances of the three transducers in the case of an oblique position of the base body «

After the capacitive sensors have been compared in the capacity measuring bridges fed by a high frequency generator 33 with the Hennkapazitäten 19, 20, 21 contained therein, the signals of the unbalanced measuring bridges via amplifiers 22, 23, 24 to these respective associated rectifier 25, 26, 27 · An the outputs of the rectifiers 25, 26, 27 are now the signals C ₁ , C ₂ and C, which are brought by the following calculation circuit according to the above relationship to determine C-, and the comparison with C-.

First, the difference between C ₂ and C _{1 is formed} by the subtracting circuit 28. The coefficient potentiometer 29 multiplies the output signal by 0.5. Thereafter, the signal is ironed multiplier 30 · Here, the signal is multiplied by the C ₁ signal · The C ₁ signal is added in parallel in the summation circuit 31 with the output of the coefficient potentiometer Both signals, the output signal of the multiplier 30 and the output signal of the summing circuit 31 are passed to a division circuit 34 and divided there. The generated signal now corresponds to C-, and is compared in a subtracting circuit 32 with C, signal. The output signal A of the subtractor 32 corresponds to the capacitance change by the DUT 8 in the third transmitter.

FIG. 4 shows the evaluation circuit 11 for the inductive transducers.

Given the fact that L- is composed of a series combination of L and the two differential inductances, the relationship is established

L ₃ = L ₁ + P (L ₂ - L ₁ )

The factor F reflects the relationship between the very specific inductance change and the change in L ^. It must be determined experimentally.

After the inductive sensors were compared in the Induktivitätsmeßbrücken with the nominal inductances 35, 36, 37, the output signals of the unbalanced measuring bridges are amplified by each measuring bridge following amplifier 22, 23i 24 and rectified by rectifier 25, 26, 27. In the subsequent Rechenschältung the output signals of the first rectifier 25 and the second rectifier 26 are subtracted in the subsequent Subtränierschaltung 38 and the difference signal is multiplied by a subsequent coefficient circuit 39 with the P factor. If the factor P is less than one, then the coefficient circuit contains a coefficient potentiometer 29, and if the factor P is greater than one, then a DC amplifier, for example, can be used.

The difference signal changed by the factor P then passes to a summing circuit 40, in which this signal is added to the external signal of the first rectifier 25. The summed signal is then compared in a subtracting circuit 41 with the output signal of the third rectifier 27 by the difference formation. At the output of the subtracting circuit, the desired output signal A is now present .

With the output signal A, the thickness of the object to be measured L can be displayed with a display device. Using downstream Schmitt triggers, a faulty and multiple-sheet control can be realized. The measurement takes place in the machine cycle.

For measurements under mechanical vibration influences of very high frequency at which the signal propagation times can influence the measurement result, it is necessary to turn on delay elements in the shorter signal paths.

Claims (6)

Invention claim. 1 · Control and evaluation device for false and multiple sheet control aowie thickness measurement of sheet or web-like materials mounted on a common elastically mounted body transducers, characterized in that at least three transducers on the base body (4) and this laterally on the transport path of the materials is arranged, and the Hess object to be checked (8) is located at the time of measurement in one of the two external transducers and this arrangement for evaluating and determining the measured values for changes in measured value by mechanical vibrations and changes due to the presence of the test object (3) in the transmitter serving evaluation circuit (10, 11) is arranged downstream · 2 · Control and evaluation device according to item 1, characterized in that on the base body (4) capacitive transducers are arranged. 3. Control and evaluation device according to item 1, characterized in that on the base body (4) inductive transducers are arranged. 4 · Control and evaluation device according to item 1, characterized in that capacitive and inductive transducers are arranged on the base body (4), (5) is housed. 13 · Control and evaluation device according to item 1, characterized in that the number of transducers on the base body (4) beyond three transducers is identical to the number of materials to be controlled. 14. Control and evaluation device according to item 1, characterized in that the housing (5) with the elastic filler 5. Control and evaluation device according to item 1,3 and 4, characterized in that the on the base body (4) arranged inductive transmitter are coupled inductively with these opposite transducers · 6, control and evaluation device according to items 1, 3 and 4, characterized in that dynamic T; onabnehmersysteme be used as inductive transducers. АЛ - And evaluation device according to item 1 and 2, characterized in that in the evaluation circuit (10), the, coming from capacitive sensors Y1, Y2, Y3 and Y4 comparing capacitance measuring bridges each have an amplifier (22, 23, 24) and this each a rectifier (25, 26, 27) is arranged downstream, and the outputs of the rectifiers (25, 26, 27) are connected to an arithmetic circuit 8. Control and evaluation device according to item 1, 2 and 7, characterized in that in the arithmetic circuit the outputs C ₁ and C _{2 of} the first and second rectifier (25, 26) a first Subtrahierschaltung (28) connected downstream and this a coefficient potentiometer ( 29), a multiplier following this (30), which is connected with its output to a division circuit (34), a further connected to the output of the division circuit (34) second subtracting circuit (32) is arranged downstream and that with the coefficient potentiometer (29 ) connected input of the multiplier (30) together with the output C of the first rectifier (25) via a summation circuit (31) to a second input of the division circuit (34) and that the output of the third rectifier (27) C-, connected to the second input of the second subtraction circuit (32) following the division circuit (34) 9 · Control and evaluation device according to items 1 and 3, characterized in that in the evaluation circuit (11), the inductance measuring bridges which compare the signals Y "1, Y2, Y3 and Y4 coming from the inductive measuring sensors each have an amplifier (22, 23, 24) and each of these a rectifier (25, 26, 27) is arranged downstream, and the outputs of the rectifier (25, 26, 27) are connected to a Rechenschaltimg · 10 control and evaluation device according to item 1, 3 "and 9, characterized in that in the arithmetic circuit the outputs of the first and second rectifier (25» 26) nachgesohaltet a first subtraction circuit (33) and this via a coefficient circuit (39) connected to the first input of a summation circuit (40) is that the second input of the summation circuit (40) to the output of the first rectifier (25) and the output of the summing circuit (40) at the first input of a subsequent second subtractor (41) and the Output of the third rectifier (27) to the second input of the second subtraction circuit (41) are connected. 11. Control and evaluation device according to. Points 1, 7 and 9, characterized in that in the Rechensehaltung the outputs of the rectifier (25, 26, 27) each associated with an analog / digital converter and these are connected to a digital computer · 12. Control and evaluation device according to item 1, characterized in that at least one of the base body (4) mounted in elastic filler (6) and with this in a housing (6) mounted base body (4) is mounted transversely to the transport direction adjustable on a fastener. For this 3 pages drawings.