DE2217819A1 - DEVICE FOR MEASURING ELEVATION THICKNESS ON PRINTING MACHINE CYLINDERS - Google Patents

Description

Maschinenfabrik Augsburg-Nürnberg Aktiengesellschaft 89 Augsburg, Stadtbachstrasse 1

P. B. 2672 Augsburg, April 12, 1972

Device for measuring the thickness of the elevator on printing press cylinders

The invention relates to a device for measuring the strength of the elevator on printing press cylinders.

In order to enable an exact correspondence of the diameter and thus the circumference of the cylinders of printing units and strips to prevent the product to be printed, it is known to "the" on " determine the tensile strength by means of a dial gauge. However, this method is imprecise and also has the disadvantage that the dial gauge only can be used on the edge of the cylinder surface,

The object of the invention is to provide a measuring device in particular for To create printing press cylinders that are easy to handle and enable high measuring accuracy »

According to the invention, this is achieved through the use of an inductive device. Bers achieved with electronic amplifier device.

According to a preferred embodiment, this is the inductive transmitter

309843/0123

in a first branch of the bridge one via at least one voltage stabilizer arranged supplied measuring bridge, as well as in a second bridge branch a comparator which can be adjusted to the setpoint value provided and a measuring instrument serving to display the measured value and arranged in the bridge diagonal is at least one amplifier upstream.

By using an inductive sensor in conjunction with the electronic Amplifier device will have a five times higher measurement accuracy than in the previous usual measurement 'achieved with a dial gauge. The arrangement of the inductive sensor and a comparison sensor in one Measuring bridge enables electronic compensation of the difference in radii between bearer ring and unrelated cylinder Change of elevator strength compared to the nominal value can be read immediately. In spite of it, the device according to the invention also has easy handling a robust construction.

According to a further advantageous embodiment, the measuring bridge a transformer with bridge rectifier, a voltage stabilizer, a voltage divider, a second voltage stabilizer and a carrier frequency oscillator upstream, so that the device of a 220 volt AC mains is to be operated.

The formation of the measuring bridge as a Wheatstrone's bridge with a Calibration resistor parallel to the bridge arm of the inductive sensor and one Zero balancing resistor parallel to the comparison resistor bridge branch enables the practical display of the elevator strength for the printer above the constant bearer ring.

309843/0123

In order to achieve the greatest possible measuring accuracy, there is a preamplifier in the bridge diagonal of the measuring instrument A demodulator and a power amplifier are connected upstream.

The branch of the supply voltage for the power amplifier behind the voltage divider or for the preamplifier behind the second voltage stabilizer makes the amplifier part easy in the Structure and enables a compact design.

A resilient arrangement of the inductive transmitter together with a microswitch in an easy-to-use prismatic measuring head Form prevents measurement errors through a constant contact pressure and only guarantees its measurement when the measuring head is in the working position. standby so that battery operation is also possible. Thanks to the handy shape of the measuring head, the elevator strength can also be measured possible at any point on the cylinder.

By designing the comparator with an adjustable head, the device can be adjusted precisely to the respective bearer ring height and in the event of any wear and tear of the same after a long period of operation, readjustment can be carried out in a simple manner.

The invention is explained in more detail below with reference to the drawing using an exemplary embodiment.
Show it

Figure 1 is a block diagram of the device

according to the invention,

309843/0123

Figure 2 shows a section from the block diagram

picture in a different representation,

Figure 3 is a side view of the measuring head

partly in section,

FIG. 4 the measuring head in cross section,

Figure 5 shows a detail.

In the block diagram according to FIG. 1, the elevator strength is measured a pressure cylinder in the power supply unit 1, the AC voltage is reduced from 220 V 50 Hz to 40 V DC voltage and a voltage stabilizer 2, which maintains a constant output voltage of 24 volts. A switch 3 behind the voltage stabilizer 2 is used for calibration of the device when the inductive transmitter 4 is out of operation. Behind the switch 3, there is a voltage divider 5 of 12 V in series for provision the supply voltage for a power amplifier 6 is arranged. A voltage stabilizer connected downstream of the voltage divider 5 7 serves to further stabilize the 24 volt DC voltage, so that behind it the voltage supply for the advance » stronger 8 can be branched. To the voltage stabilizer 7, a carrier frequency oscillator 9 of 5.6 KHz is connected in series. Its terminals 9a and 9b are connected to terminals 25a and 25b of a measuring bridge 25, which looks like a so-called Wheatstone * bridge » is formed, connected (see Figure 2). In one branch of the measuring bridge 25, the inductive sensor 4 is arranged and parallel to it a calibration resistor 17 is switched, while a comparator 11 set at a constant distance is provided in the second branch of the bridge.

V-

309843/01 23

see and to this a zero balancing resistor was 18 connected in parallel is. With its help are environmental influences such as temperature fluctuations and the like, compensable. In the other half of the measuring bridge 25 resistors 21 are provided in the two bridge branches.

The inductive transmitter 4 consists in a known manner of one of one current-carrying coil 12 surrounded magnetic core 13 within a housing 14, which is resilient in a measuring head 15 of prismatic shape is stored in order to always be placed with the same pressure on the blanket of the printing unit cylinder s 22 can. A Microswitch 16 makes it possible to put the measuring head into operation only when it is put on.

The comparator 11 is adjusted in such a way that an asymmetry of the bridge circuit is brought about which corresponds exactly to a winding thickness of 2 mm, ie half the difference in diameter between bearer ring and cylinder. In this way, the actual elevator strength can be determined immediately without conversion using the bearer ring. The detuning voltage caused by the adjustment of the comparator 11 is compensated for during calibration by moving the calibration resistor 17. The calibration switch 20 to be actuated is coupled to the switch 3 so that both are switched "on ¹¹ or ⁿ off" at the same time (see dashed line in FIG. 1).

In the diagonal line of the measuring bridge 25, at the terminals 9a and 9b a detuning AC voltage with a frequency of 5.6 KHz is the measuring instrument 19 is a preamplifier 8 and a demodulator 10 and a power amplifier 6 upstream. The measuring instrument is expediently designed as a moving coil measuring device.

309843/0123

As can be seen from FIGS. 3 and 4, the measuring head 15 itself has a prismatic shape, so that the edges are always perfectly positioned 15a and 15b takes place on the printing unit cylinder 22 provided with the rubber lift and measurement errors are eliminated.

To get the elevator dimension directly from Schmitz, i. H. without conversion As can be seen from FIG. 5, a cup-shaped sleeve 23 with an insert 24 is on the housing 14 of an inductive transmitter Made of magnetic material, can be screwed on, by adjusting the respective diameter difference between bearer ring and cylinder jacket surface adjustable and can be compensated with the unchangeable inductive sensor 4 together with the calibration resistor 17.

A measuring range of 0.1 mm change in thickness, which can be easily achieved with the device described above, is sufficient for the stated purpose. As has been established, the display accuracy is - 1 % of the measured value. The calibration of the measuring instrument is such that, for example, the display 30 means a lift dimension over bearer ring of 30 M , ie the absolute measured value is 2.030 mm.

By using correspondingly small parts, it is also conceivable that to accommodate the entire device with the measuring instrument 19 within the measuring head 15, which makes handling even easier and only the power supply must be arranged independently thereof.

309843/0123

Claims (11)

P. B, 2672 An »prttche 1. Device for measuring the elevator strength at Druckxna * . machine cylinders, characterized by the use an inductive sensor β (4) with an electronic amplifier device. ! i 2. Apparatus according to claim 1, characterized in that j the inductive sensor (4) in a first bridge branch one ver · j via a stabilized carrier frequency oscillator (9) provided measuring bridge, (25) and in a second branch of the bridge a comparison that can be adjusted to the target value encoder (11) provided and to display the measured value serving measuring instruments arranged in the bridge diagonal ment (19) at least one amplifier (8, 6) is connected upstream » 3. Apparatus according to claim Ι «characterized in that i the measuring bridge (25) a voltage stabilizer (2), a voltage * . divider (5) a second voltage stabilizer (7) and a Tr ft gerfrequency oscillator (9) are connected upstream in series. 4. Apparatus according to claim 1, characterized in that the measuring bridge (25) is designed as a Wheat β tone ^s see bridge. In one branch of the bridge the inductive transmitter (4) and, parallel to it, a calibration resistor (17) and in the other branch of the bridge the comparator (11) with one to it parallel-connected zero balancing resistor (18) and the other half of the measuring bridge is formed by a resistor (21) in each bridge branch. 309843/0123 ORIGINAL INSPECTED 5. Apparatus according to claim 1, characterized in that β in the bridge diagonal a preamplifier (8), a demodulator (10) and an output amplifier (6) the measuring instrument (19) are connected upstream in series. 6. Apparatus according to claim 3, characterized in that dall the supply voltage for the power amplifier (6) is branched off behind the voltage divider (5). 7. Apparatus according to claim 3, characterized in that dall the supply voltage for the preamplifier (8) behind the second voltage stabilizer (7) is branched off. 8. The device according to claim I _1, characterized in that the inductive transmitter (4) is resiliently mounted with a microswitch (16) in a prierna-shaped measuring head (15). 9. The device according to claim 1, characterized in that the measuring line (19) is designed as a rotating pulley measuring device 10. Device according to claims 1 and 2, characterized in that the voltage «stabilizer (2) is preceded by a transformer (1) with a bridge rectifier. 11. The device according to claim 1, characterized in that the comparison sensor (11) consists of an inductive sensor on which a cup-shaped sleeve (23) with an insert (24) Made of magnetic material on the bottom to adjust the distance from the inductive corresponding to the bearer ring height encoder can be screwed on. 309843/0123 12, device according to claims 3 and 4, characterized in that a switch (3) is provided between the voltage stabilizer (Z) and the voltage distributor and with the. Eichachalter (20) in the bridge branch dea inductive sensor a (4) coupled iat. 309843/0123 Blank page