DE619574C - Device for moving printed paper webs in register - Google Patents

Description

Device for moving printed paper webs in register It is a device for bringing together printed paper webs in register became known in which the preprinted paper web passed over a control cylinder which has a diameter which is equal to the single or double diameter of the printing cylinder. In the control cylinder are depending on the size ratio to the printing cylinder arranged a corresponding number of scanning devices. The feed rate the paper web is regulated by a motor driven by the scanning device is influenced in its speed in the control cylinder. The paper web should span the control cylinder in as large an arc as possible. Each of the scanning devices which is the speed of the motor in one sense or another of the direction of rotation affect consists of two contacts that have a very specific immutable Distance which at the same time forms the fixed boundaries between which the register able to commute. The paper web is guided over the control cylinder. It the arc length to be cut corresponds to the circumference of the regulating cylinder for simple ones Relationships to the printing cylinder and, if twice the circumference, the distance between the scanning devices in the control cylinder. Accordingly, only sheets of only one length can be processed. As a result, the length of the arc changes in relation to the distance of the scanning devices that in order to produce the register, the paper web with larger or lower speed than the control cylinder has, via the control cylinder must run, and since both speeds are not the same, the paper web must grind on the control cylinder. Should z. B. an arc length only slightly smaller are processed than the distance between the scanners, the Paper web are pulled over the control cylinder away, the control cylinder acts as a brake on the paper web and changes the paper train to such an extent that tearing of the paper web occurs.

The immutability of register tolerance, the grinding of the paper web on the control cylinder and the associated unfavorable effect on the paper web, the processing of a single sheet length and finally adhering to it of the machine and production of the register by hand when exceeding the permissible Register tolerance are disadvantages inherent in this arrangement.

It has also been proposed here as scanning devices. in the control cylinder to use two of the known contact pins, but the outside of the control cylinder arranged mating contact to form as a band and at the speed of the cylinder to overflow. The distance between the two contact pins is, as mentioned above, the Space within which the register can oscillate. However, if the Mark this area in the paper web, so can not adjust of the register through the contacts, .the machine must be shut down -and the register can be set manually. This arrangement has besides the already specified disadvantages nor those that when exceeded by the contacts limited play, the machine is shut down and the register is restored by hand must become.

It has also been suggested that the two contacts be def Scanning devices in the control cylinder as two longer ones that expand in the circumferential direction Forming strips and leaving a narrow gap between them, which the distance between the other contact pins: corresponds to the mating contact in the form of a Bust, where the gap is to be arranged on the control cylinder and with to let this circulate. This arrangement requires the contact to be pivoted out from the area of the paper web and precipitation onto the on the control cylinder overlying paper web. This arrangement is practically useless because, firstly, the Knocking down the contact is an uncertainty factor for making contact and further .the paper web is easily damaged, resulting in paper breaks with all of their Disadvantages leads.

It is still a device for the in-register merging of printed paper webs, in which the setting of the register with Help of light-sensitive cells takes place: These devices are. both Paper webs, both the one just coming from the printing machine and the preprinted one, Marked and at the moment of passing in front of a prism mirror been illuminated. This lighting, which always lasts for a moment, is dependent by a contact device arranged on the printing cylinder. The setting this lighting is achieved in such a way that, the mark goes on the just now printed paper web passes in front of the prism mirror and stands in a hairline on this opposite, a lightning bolt is thrown onto the mark. the Adjustment is done by observing the correspondence through the eye, the adjustment of the contactor on the pressure cylinder by hand. The fed pre-printed paper web In contrast to the one just printed, it has two adjacent stamps, von which - each on a light-sensitive cell assigned to it via a prism mirror should act. Covers each of the two brands at the moment of lightning-like lighting of the brands an equally large part of their light-sensitive cell, that's how it should be correct Register present. However, a brand covers a larger part of its light-sensitive Cell than the other does with hers, so. is the balance of the amounts of light both cells disturbed. The cell that emits more light acts on a mirror galvanometer one, swivels it, depending on which light-sensitive cell light shines on it, right or left. The mirror galvanometer, for its part, has two light-sensitive ones Cells assigned, one of which or the other, depending on which he will be Throws light, - a relay is actuated, the electricity in one of them via a changeover switch or other direction to a motor, so that the motor is to the right or to the left. The motor moves a movable paper guide roller and leaves each according to the direction of rotation, a larger or smaller loop in the paper web develop.

In this device, the one paper web with one and the pre-printed with two marks that are interdependent. It can only sheets of one length are processed; when exceeding the register tolerance the register must be restored manually. The register tolerance is immutable.

The invention relates to the further development of a device for in register movement of preprinted paper webs at certain intervals are marked with marks that are placed under a light-sensitive cell when passing by each trigger a current impulse that reduces the running speed of a motor in one or other direction of rotation influenced, with the motor either a change in speed the pull rollers in the paper runway or the shift, a paper guide roller caused by forming a loop.

According to the invention, however, in contrast to known devices this type of current surge from the photosensitive cell first leads to one with the i printing machine or the cutting unit, which rotates synchronously, from which in the rule the current expediently using relays, which allows the feed speed of the paper web regulating devices to work. The collector is composed of two full, mutually insulated contact disks or rings that prevent any surge of current emitted by the photosensitive cell pick up via brushes. One or more are attached to each of the contact disks Contact segments. The contact segments associated with each contact disk are opposite those contact segments belonging to the other contact disk are arranged and offset in such a way that .that on the circumference of the collector a neutral gap remains. Are the current from the collector to the relays, regulating motors, clutches, etc. relaying brushes at the moment of the current surge on the contact disc in the neutral gap, no current is passed on; the paper web or sheet runs in register. However, if there is one of the dissipating current from the collector Brushes at the moment of the current surge on the contact discs on one of the contact segments on, the current will flow for as long as the running speed of the paper web influence the regulating device until the mark on the Paper web under the photosensitive cell with the position of the electricity from Collector relaying brushes in the neutral gap coincides. The one contact disc influences the control motor or others with the associated contact segment Control members so that the paper feed speed is increased while the other contact disc with its associated contact segment when recording the Current surge affects the control motor or the other control organs so that the Paper feed speed is reduced.

One has at synchronization devices for picture telegraphy and Televisions proposed for the purpose of synchronizing between the cutting disks to switch a collector between the sending station and the receiving station, which influences the speed of the drive motor for the receiving disk. A special device on the transmission dismantling disk is via the photocell Power surges. The collector consists of three discs, one of which is on top of the Perimeter arranged two closely spaced contacts is provided, of which one is connected to one disc and the other to the other. on a brush rests on each of the three collector disks. As long as the brush is on the If the contact disc remains between the two contacts, the two dismantling discs are synchronized preserved. What remains, however, is the reception splitting disk opposite the transmitting splitting disk backwards or if it rushes forward, the brush on the contact disc comes with the one or other contact in contact, thereby shorting the current with one or the other Disc comes about: These discs influence one device and this one High-frequency inductor generator, through which the motor in one sense or another of its Direction of travel is influenced. The brush comes on the contact disc outside of the space between the two contacts, an adjustment must be made done by hand.

For the multi-motor drive on working machines it has been proposed that to keep the motors running in sync with each other, one with the master speed to apply revolving contactor to the control devices of the individual Motors sends current surges through collectors, which adjusts the series resistance accordingly - Changed the speed change to be made. The power surge occurs here from collector to collector.

The previously known devices for merging in register of paper web work without using a collector operate the control device directly via amplifier. In addition, with these devices it is only possible to adhere to a very specific register difference. If this becomes larger, then a must Follow-up by hand. The same. The collector also has a disadvantage above-described device of the Synchronüsierungseinrichtung for image telegraphy and television.

The arrangement of a collector according to the invention leaves the processing from arch of any length to. This is possible because of the speed of rotation of the collector is independent of the paper speed. The registry will appear, no matter how big the register difference may be. The register tolerance can be set as required. The paper web won't have one Cylinder pulled away like the known devices for merging paper webs and therefore the paper tension remains constant. The invention allows several and various devices regulating the feed speed of the paper web to arrange, e.g. B. a faster working and a slower working. The former is z. B. take advantage of activity when the register difference is large, and will work until the register difference is to some extent is depressed, whereupon the second comes into action and the small register differences eliminated. For quickly changing the feed speed of the paper web can e.g. B. the known, achieved by adjusting a paper guide roller enlarge or reduce a loop in the paper path and serve as a slow working Change the known increase or decrease of the peripheral speed of the paper pull rollers.

In the drawing, the subject of the invention is for example illustrated. Figs. R and: 2 show, for example, a device according to Invention. By doing Example `two control devices are provided, both of which can also exist on their own: One control device becomes useful .then used when the mark printed on the paper web at the moment of the Acting on the photocell is far from the correct cut and the other useful when the mark printed on the paper web at the moment of .Effect on the photocell deviates only slightly from the correct cut. The first Type of regulation can be described as "static" regulation, the second as "dynamic" Regulation.

Each control device consists of the photocell, an amplifier, a collector, various relays and gears that control the moving paper web between the draw roller and .the interface. either lengthen or shorten or which change the speed of the draw roller for the paper web.

The "static" regulation is carried out as follows: From a roll 2i: the previously printed paper web 22, which is in. is provided with a printed mark Q at regular intervals, bent by the pulling rollers Z1, Z2, with disks 23, 24 and 25, 26 pressing the paper web against the pulling rollers. The paper web 22 continues over a guide roller 27, a roller Z3 that can be displaced transversely to the paper web via a guide roller 28 and a plate 29 for the merging unit 30 with the printed paper webs 3 i, 32 coming from the letterpress unit. The plate 29, which is straight or can also be curved, is used to ensure a smooth run of the paper web 22, it being possible under certain circumstances to be able to assign noph pressure rollers or disks. The roller Z3 is displaceable in the direction indicated and is used to lengthen or shorten the length of the paper web between the paper pull roller Z2 and the joining mechanism 30. The photocell F, which is illuminated by a light beam N, is arranged above the plate 29; which is thrown onto the paper 22 by a light source L with a diaphragm B1 and a lens Q. While the paper web 22 is running, the marks Q travel on the paper web 22 through the light beam N; Each of these marks causes a change in light and thus a change in the electrical state in the photocell F, which causes a current surge in the amplifier V, which in turn triggers the relays R1, R2, R3 or R4 via a collector C at the given time. The collector or shift drum C consists of six segments, namely the segment G, with a brush B1, the segment G2 with a brush B2, the segment G3 with a brushBs, the segment G4 with a brush B4, the segment G5 with a brush Brush B5 and the GE segment with a brush B5. The segment G3. Is isolated from the segment G4. The segments G1, G2, G3 are used to hold back, the segments G4, G5, Ga to pull the paper web 22 forward. The brushes B1, B2, BS, B4, B5 and B3 are arranged in a line. The segments G, and G6 are used to move the rollers Z3, they extend approximately to half the circumference of the collector and are opposite one another. The segments G2 and G5 take up only a fraction of the circumference of the collector. G3 and G4 are closed rings. The segment G2 connects to the ring Gs and, to this, the segment G1, so that current from G3 to G can flow. In the same way, the segment G5 connects to the ring G4 and the segment G6 to this. The segments G1, G2 and Gß, G5 do not together form a full ring, but between the edge 35 of the segment G2 and the edge 36 of the segment G5 a neutral gap Sp remains free, which is of a certain width depending on the regulation. Normally the passage of the mark Q through the. Light beam N coincide with the gap Sp on the collector K. The collector C is set in rotation in such a way that the gap Sp always coincides with a cut of the cutting knife in the joining mechanism. It is assumed that the passage of the mark Q through the light beam N does not coincide with the gap Sp in the collector C, but z. B. with the point 38 on the Kallektorsegment G1. The current now flows from the amplifier V via the brush B3 into the collector ring G3 via the segment G2 into the segment G1, and. since brush B1 is now at point 38 of the segment, the current flows through brush B, to relay R3 and back via the line to amplifier V until brush B1 leaves segment G1 and the flow of current is interrupted is, whereby of course the brush position with: the influence of the photocell F must coincide. During the current flow over the segment Gt the following occurs: The current flows over the brush Bs to the relay Rs, which is expediently provided with a holding coil H3, attracts the armature A3, so that this and the contact L3 close a secondary circuit , in which a battery or other power source E, a transmission T with a magnetic coupling M3 and M4 are located. The transmission T consists of a bevel gear 40 which is continuously driven by a motor III via a shaft 42 and a worm drive 41 with a corresponding gear ratio. On a shaft 43 sit loosely in engagement with the bevel gear 40, a bevel gear 45 on the right and a bevel gear 44 on the left 47 current is supplied, while the slip ring 46 provides the coupling of the shaft 43 with the bevel gear 45 and slip ring 48 the coupling of the shaft 43 with the bevel gear 44, so that the shaft 43 is rotated once to the left and the other time to the right. On the shaft 43 there is also a handwheel So and furthermore a bevel gear 5z, which meshes with a bevel gear 52 and bevel gear 53, which meshes with a bevel gear 54. The bevel gear 52 is firmly connected to a threaded spindle 55 and the bevel gear 54 to a threaded spindle 56 , so that the roller Z, 9, which is suspended on the spindles 155, 56 with threaded bushings 57, 58, is moved up and down by the rotation of the spindles 55, 56 be moved. The threaded bushing 57 carries a stop 59 which, in the end positions of the roller Z3, actuates limit switches 6o or 6 1 and switches off the magnetic coupling Ms or M4. D, the current flows A3, E 47, 46, contact K3, limit switch 6o, H3, L3. The magnetic coupling M3 couples the shaft 43 with the bevel gear 45, the shaft 43 begins to rotate and with it the threaded spindles 55, 56, which move the roller Zs in the direction of the limit switch 6o. If, however, the stop 59 reaches the end of the spindles 55, 6o, it lifts the contact of the limit switch 6o and opens the circuit, whereby the magnetic coupling M3 drops out and the motion gear T for the roller Z3 stops. If, however, the passage of mark Q through light beam N coincides with, for example, position 64 on brush B, on segment GB, current flows from the amplifier via brush B4 via segment G4, G5, G8 via brush Ba to relay R4 back to the amplifier. Relay R4 responds, pulls armature A4 at P2 and thus closes the secondary current within f14, -. Battery E, slip ring 47, 48, contact K4, limit switch 61, holding winding H4, contact L4. The magnetic coupling M4 is switched on, the bevel gear 44 and the shaft 43 are firmly coupled to one another - the shaft 43 now receives the opposite movement, the roller Z3 runs towards the shaft 43. If the stop 59 has reached the limit switch 61 ', it opens this contact, whereby the circuit is interrupted and the gearbox T puts it out of action. The handwheel So is used to move the shaft 43 and thus the roller Z3 independently of the transmission T. Has the passage of the mark Q on the paper web 22 through the light beam N compared to the position 38 of the brush Bi on the segment G, due to the static regulation of the roller Z, shifted so far that the passage of the mark Q under the light beam N now coincides with position 65 of brush B, to segment G, no more current will be able to flow from G3 via G2 to G, but will only flow via segment G2 via brush B2 to relay R, and this let speak. The same will also occur if the passage of the mark Q through the light beam N has shifted to the position 66 in accordance with the brush position 64 on the segment G6. The current will no longer be able to reach segment Ge, but only via segment G5 to relay R2 and let it work. Relays R ,, R2 operate in the same way as relays R3 and R4.

The control described in the following is referred to as "dynamic" because it slows down or accelerates the speed of the paper. The device for dynamic control consists of two motors with apparatus. The draw rollers Z1 and Z2 are driven by the machine. A gear T is connected to the drive, by means of which the movement of the pull roller can receive an additional movement upwards or downwards. This additional movement is preferably made by two motors I, II, of which the motor I has a speed, - which can be placed above or below the speed of the motor II, including a resistor W, z. B. to regulate: the field is connected upstream. To regulate the resistance, switching wheels S, and S2 are used, which control a slide Sch , which then increases or decreases the resistance for the motor II depending on the circumstances. The ratchet wheels S and S2 are controlled by magnets M and M2, respectively. By one on the engine II z. B. for field control upstream resistor W2, its speed is adjusted accordingly. If a current surge is triggered by the passage of the mark Q under the light spot N through the amplifier h, the current flows via the brush B3, segment G3 to segment G2 via brush B2 to relay R, and causes this to respond. Armature A, is attracted to P, and contact L, is closed. The current from the battery E now flows to the contact K, through the coil of the magnet M1, to the holding coil H, and contact L, back to the battery E. The armature 70, which is provided with a kind of pawl 7 1, which is in teeth 7a of the ratchet S1 engage, is attracted and rotates the ratchet wheel around one or more teeth in the direction of the arrow, whereby a slide Sch on a belt 73, which is connected to the power supply line 74, is moved to the left at the resistor W2. The upstream resistance is: lower, the motor I will run more slowly. By moving the armature 7o forward, however, the contact K1 is opened and the circuit has been interrupted as a result. This game will be repeated until the brush B2 has gone over the edge 35 of the segment G2 and ends with this and this position coincides with the influence of the photocell F by the mark Q. The same thing takes place; when the current stole from amplifier V via brush B4, segment G4, segment G5, brush B ;, causes relay R2 to respond. The anchor A2 is tightened at Fi; the contact L2 closes. The current of battery E flows through the coil of magnet M2, goes back to battery E via contact K2, to holding winding H2 in relay R2 via contact L2. The armature 75 with a pawl 76 of the magnet M2 is attracted, engages in the ratchet wheel S2 provided with teeth 77 and rotates it in the direction of the arrow. The band 73 is pulled to the right with the Odem slide Sch , which increases the resistance in the resistance Sri, so the motor I will run faster. The action of the - armature 75 interrupts the contact K2 and thus the circuit. This game is repeated until the brush B4 has slid over the edge 36 of the segment G4 and ends with this and this position coincides with the influence of the photocell F by the mark Q.The brushes B2 and B5 are now in the between the edge 35 of the segment G2 and the edge 36 of the segment G5 located gap Sp. Since this gap is neutral, no current can flow. In this position, the passage of the mark Q through the light beam N coincides with the correct cut. However, if this relationship changes, so. Either a current impulse via the brush B2 through the relay R1 will work and let the motor I run slowly or the current impulse via the brush B5 will bring the relay R2 into action and let the motor I run faster; until both brushes B2 and B5 are back on the neutral gap Sp and the influence of the photocell by the mark Q coincides with this brush position.

The change in the rotational speed of the pulling rollers Z1, Z2 takes place as follows: The drive of the pulling rollers Z1, Z2 takes place from the machine through the shaft 8o, the bevel gear pair 81, 8a, the shaft 83, the differential gear T, the shaft 84, the Gear 85 to the pulling roller Z1 and from there to the gear 86, the pulling roller Z .. For example, the collector C is on the shaft 8o. The differential gear T consists in a known manner of the bevel gears 88, 89, 9o, 9i, the wheels 9o, 9i being loosely mounted in a housing 92, the outside of which carries a bevel gear 93. In engagement with this is a bevel gear 94 on a shaft 95 which is driven by a gear D. will. The motor II acts through: a worm gear 96 and the motor I through a worm gear 97 on the gearbox D. The motor II runs at a constant speed n, which is regulated by the resistor W2. The motor I runs regulated between a speed interval n1, n2, which extends above and below the constant speed n of the motor II and is determined by the resistance W 1. If both motors are running at the same speed n, the shaft 915 with the gear 94 remains stationary, the pulling rollers Z, Z2 are only driven at the speed determined by the shaft 8o. If the synchronization between cutting the paper web and influencing the photocell F is disturbed by the mark Q and this is expressed in the fact that the slide Sch causes a decrease in resistance in the resistor W1 and thus causes a reduction in the speed of the motor I, the shaft 95 and the bevel gear 94 a movement which it transmits to the bevel gear 93. This additional movement, however, counteracts the movement initiated by the shaft 8o, 83 , the speed of the draw rollers Zi, Z2 is reduced and thus the running speed of the paper web a2 is also reduced. If, however, the resistance is increased by the slide Sch , the motor will run faster, the bevel gear 93 receives an additional movement in one direction of rotation of the shaft 83, which in the case of the pulling rollers Z1, Z2 results in an increase in the number of revolutions and thus in an increase in the Paper speed. The arrangement of the motors I and II and their coupling can also take place in a different way, as well as relays which work advantageously without inertia are used instead of the coil relays. The same device is also advantageously used for setting the register in multi-color printing.

Claims (7)

PATENT CLAIMS: i. Device for registering. Moving from printed paper webs, those with brands at certain intervals are provided, which when passing under a light-sensitive cell each trigger a current surge that slows down the speed of a motor in one or influences other direction of rotation, with the motor either changing the speed the pull rollers in the paper path or the displacement of a paper guide roller causes the formation of a loop, characterized in that the light-sensitive Cell (F) emitted current impulse from one with the pressure cylinders or the cutting unit synchronously rotating collector (C) is added, on the except full contact discs (G3, G4,) offset contact segments (G2, G5 or G1, G6) are arranged, which from the circumference of the collector (C) one of the register tolerance . Leave the corresponding neutral gap (Sp) free, whereby the one contact washer (G3) with the associated contact segment (G2 or G1) when receiving the current surge the regulating motor for changing the paper feed speed or the control elements for moving the paper guide roller (Z3) forming a compensation loop so influenced, that the paper feed speed at the control point is increased while the other contact disc (G4) with the associated contact segment (G5 or G5) influences the control motor or the control units when the current surge is received, that the paper feed speed at .the control point is reduced. 2. Apparatus according to claim i, characterized in that on the collector (C) several in the -circumference except for the gap (Sp) complementary contact segments (G1, G2 or G5, GJ are arranged, wherein the contact segments (GI, G6) pass the current on to a device that regulates the paper feed speed, for example faster, and the contact segments (G2, G5) allow the current to flow on to a device that regulates the paper feed speed, for example, or its control elements. 3. Apparatus according to claim i, characterized in that the amplifier (Z ') Incoming current impulses going to the collector (C) via relays (, R, -R ") with holding coils (Hl-H4) is directed. 4. Apparatus according to claim i to 3, characterized in that the current passed on via the contact segments (G1, GJ and the brushes (B1 or B6), expediently in connection with a control circuit influencing relay (R3, R4), influences a motor III , which actuates a device which changes the feed speed of the paper web (22) in a known manner by forming a loop in the paper web (2z) with the aid of a paper guide roller (Z3) suspended in rotatable threaded spindles (55, 56). 5. Device according to claim 4; characterized in that between .the motor (III) and the A reversing gear (T) is connected to the threaded spindles (55, 56) carrying the loop roller (Z3) is, that via a shaft (43) through a pair of gears (5i, 52) with the threaded spindle (55) and: is coupled to the threaded spindle (56) by a pair of gears (53, 54). 6. Apparatus according to claim 5, characterized in that the reversing gear (T) cooperates with an electromagnetic clutch, in such a way. that, depending on Current flows through the brush (48) or the brush (49), the shaft (43) with the gear (q4) or the gear (45) is coupled, whereby the shaft (43) in one or is rotated in the other direction. 7. Apparatus according to claim 4, characterized in that the pull roller (Z,) is actuated in its limit positions limit switch (6ö, 61). B. Device according to claim i, characterized in that the current flowing over: the brushes (B2, B5) and actuating the relays (R1, R2) controls a motor by which the peripheral speed of the draw rollers (Z1 , Z2) is accelerated or decelerated. 9. Apparatus according to claim 8, characterized in that the acceleration and deceleration of the peripheral speed of the pulling rollers (Z1, Z2) is done by two motors (I, II) coupled by a planetary gear (D), of which the motor (II) '' at constant speed, the motor (I) runs at a speed that can be regulated above and below the speed of the motor (1I). ok Device according to Claim 9, characterized in that the regulation of the speed of the motor (I) is effected by a resistor. (W1) takes place, which is increased or decreased by the relays (R1, R2) controlled via magnets (Ml, M2) switching wheels (S1, S2). i i. Device according to claim 10, characterized in that a belt (73) is moved by the switching wheels (Si, S2), on which a slide (Sch) sliding along the controllable resistor (W1) is arranged, which depending on the direction of rotation the switching gears (S1, S2) increases or decreases the resistance. 12. The device according to claim 9 and to, characterized in that the, by the two motors (I, II) at unequal speed by a planetary gear (D) in one sense or the other resulting rotational movement through the shaft (95) as an additional movement is transmitted via a planetary gear (T) to one of the drive shafts (8q.) for the draw rollers (Z1, Z2). 1 3. Apparatus according to claim q. and 9, characterized in that with simultaneous application of both types of control, the static and dynamic, the static control automatically changes to the dynamic as soon as the current surge from the amplifier (U) to the collector (G) no longer over .the segment (G1 or GB), but via the segment (G2, G6).