CS251780B2 - Multicolour sheet printing machine for first printing and for first and back-up printing - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a multi-color sheetfed printing machine for facing printing, including for facing and backing, with a plurality of printing devices and with at least one sheet-inverting device, convertible from face-to-face and reverse printing, and densitometric measuring devices. or with other color testing devices for different sheet bandwidths, which, when deviating from the setpoint of the assigned bandwidth, generates a warning message or performs an additional adjustment of the color supply in the transmitted bandwidth in the closed-loop control circuit.

In a more recent development of multicolour printing, densitometric measuring devices or other color testing devices are provided for different widths of the tactile sheet to continuously check the color density consistency of different colors in each width band between the actual tico product and predetermined predetermined values. If a predetermined color tolerance is exceeded to a desired set value, either a warning message is generated which prompts the user to adjust one of the inking units in one or more width zones, or a self-adjusting color supply to the closed loop immediately appropriate bandwidth. In the following, for the sake of simplicity, only denaitometers will be discussed, but all other types of color testing devices may also be replaced.

For printing machines, in particular offset sheet-fed printing machines with several ticks units that encircle one inking unit and several cylinders, in particular multi-color printing machines, it has hitherto been necessary to remove the finished printed sheet from the unloader to check the color density of the ticker product. colors at several locations of the co-printed color density measuring tape, and when deviations from a predetermined color density occurred both in the transverse direction of the printed sheet and in individual colors, individual inking units were required by means of adjusting devices applied to the ink. their coiorimeter.

This method of operation requires constant inspection of the tick products. This type of work is lengthy, slowing down the ticking action and, moreover, more waste can not be avoided.

A known attempt to overcome this problem is that at least one roller adjacent to the article with a surface lying on top and at least partially printed is provided with a densitometric measuring device for measuring the color density on the test areas of the color of the printing article. wherein a control device is provided with a setpoint indicating that at least one inking unit is provided with an actuator that is controlled by the set value of the control device. In this known solution, a densitometric measuring device is provided on a measuring cylinder which is located between the rebound cylinder of the last unit of the ticking device and between the sheet delivery. This design is to be carried out in such a way that each printing unit is provided with a densitometric measuring device, which is mounted on a narrow cylinder directly adjacent to the printing cylinder of the printing unit. However, in practice, in this known solution, two additional rollers are always required in order to arrive at a roll on which the printed side lies on top and on which it can be. a deneithometric measuring device is placed.

For multi-color sheet-fed printing machines that are adjustable from face-up to face-up and back-up, and vice versa, different color densities cannot be checked on both sides of the sheet when set to face-up and back-up or under no circumstances .

It is therefore based on the task of creating a multi-color printing machine which can be switched from face-up to face-up and back-up so that the user, regardless of how the machine is currently set up, can continuously check the color density of both face-up and back-up. at least the cost of densitometric measuring devices or their number. It should be taken into account that such a densitomeric examination of both sides of the sheet is carried out every time the machine is set up. It should be noted, for example, that in a multicolored dye machine, the Sterile of a secsoiSa sheet transfer device, which lies with the sword through the individual beverage devices, one and the other sheet transfer device can be configured as a sheet inverting device, whether the operator of a weaving machine, for example, a machine with a total of five printing machines, wants to print one color in the printing press and four baimes in the reverse printing, or two colors in the new printing and three in the reverse printing, or three colors in the printing printing and two backsides, or iced and colors in reverse, or all five in the Bowl four colors.

According to the invention, the problem is solved by the fact that the total densimetry measurements of the other ink testing device for the printing press control are arranged after the printing process.

This is possibly the printing zone which is the last one in the direction of the sheet advance, namely on one cylinder of the entire machine on which the side of the printing side of each sheet lies on top, and for testing the color to the reverse printing control. шёпс1 devices, are arranged behind the last printing band of the reverse printing machine.

In US takoveč ^ or ^ the ball ^{moves to} and be characterized arc ^{h p} RE2 to ^{the EC} ^ nokommericty both st.rao ^and CH, i.e. both the řccového press and on the side of the backing tssku, continuously and at any arbitrary setting of the machine in terms of the number of operations of the lbb and reverse printing.

The invention may be practiced in several ways. For example, it is possible to position the total denostomeric aiming device for the face print on the last printing roll after the last printing printing band before the next perfecting device.

However, these face-to-face facing machines may also be disposed on a single sheet-turn roller, which lies behind the last tsso-facing sheet and on which the side of the sheet with the chip-shaped sheet is at the top.

• It is also possible to provide densometric / face-up measuring devices on one roll of sheet inverters lying between the backsheets or on a roll that is located after the last backsheet and on which the liner side of each Ark upstairs.

According to a further embodiment of the invention, the mono-banded color testing devices, for example the band densitomers of the overall color testing device, are disposed on a common bridge which is fastened releasably and excretely in the printing machine.

This has the added advantage that, in dies machines where multiple sheet inverters are provided (but only one sheet inverter is operated at a time), only a single densitomeeric dipping device is used, which can then be mounted at different locations in the machine. That is to say, always before the effective cost of the workpiece, it measures the sheet turning device. This reduces or reduces the color testing equipment.

the measuring devices should be checked for color density, because of the increase in the sheet, which may be caused by densitometers or other color testing equipment. When the accuracy of the bandwidths narrows, both for face-print and back-print, they can no longer be placed side by side on a common must. In this case, the invention proposes that the single-banded color testing devices of the overall color testing device, for example, the single band densstome of a dyeing machine, are located on at least two bridges that have been mounted on one or more bridges. several rollers of the machine where the side to be inspected with the side or back side of the printing sheet is facing upwards, the rollers being preferably fastened in the stroke machine in a replaceable and replaceable manner.

In this case, densitometers, for example, when two bridges are arranged to accommodate them, can be divided into both bridges according to different colors to which the individual densitometers respond, or also so that one bridge carries densitometers for the first, third, fifth, etc. sheet bandwidth , and the second bead carries densitometers. for the second, fourth, sixth, etc. sheet width band.

The invention will now be explained by means of exemplary embodiments shown schematically in the drawings.

Giant. 1 shows a side view of a substantial part of a multi-color printing machine with six printing devices and one sheet-turning device.

Giant. 2 illustrates a printing machine also having six printing devices, but with two sheet-turning devices, each of which can optionally be converted to a flip-flop operation in a blasting operation.

Giant. 3 shows the location of the individual band densitometers or of the individual band test devices of the overall color testing device on a common bridge ⁷ in the vicinity of a cylinder of the printing machine.

1 and 2 are continuously designated by reference numerals 1 to 6. By way of example only, offset printing devices are shown; however, any other type of printing device is contemplated for use in the invention. ·

The printing machine of FIG. 1 has six printing devices 1 to 7 - a six-color printing machine. The sheet feeder is designated by the reference numeral

8. Each printing apparatus has a die plate 9 with a printing plate, a rubber roller 10 and a pressure roller 11; these cylinders are provided with reference numerals only in the printing device. Between the two such devices 1 and 2 there is a sheet reversing device consisting of a small drum 12, such a large drum 13 and a second small drum 14. Reference numeral 15 denotes a transfer drum of a sheet-type unloader 8.

Although the standard small drum 12 of the sheet-turning apparatus is provided by the printing devices 2 and 3. In addition, however, the sheet turning apparatus in the form of a large drum 17 and a small drum 18. Both drums 17 and 18, in contrast to the drums of the only sheet-turning apparatus, are drawn in black. When the sheet inverting device 17, 18 is set to mere sheet inverting, the entire machine operates in six-face printing and then only one densitometric measuring device 16 is required after the last ticking device 6, since only one upper side of the sheet is then printed. six-color printing. If, on the other hand, the inverting device 17, 18 is converted to face and reverse printing, then a further densitometric measuring device 19 is required which lies between the sheet reversing device 17, 18 and between the last preceding face printing zone, i.e., the tactical zone in the ticking.

mechanism 2.

Here, the sheet is then printed on one side with ticking devices 1 and 2 in two-color face print and in printing devices 3 to 6 in four-color reverse printing, the first two-color printing being controlled by a densitometric measuring device 9 and four-color printing. side of the sheet, it is controlled by a total densitometric measuring device.

Giant. 2 also shows a six-color printing machine with six such devices 1 to 6. This machine has two sheet-turners 17, 18 ', one between such devices. 2 as well as the other between the presses 2 and 3. If both sheet inverters 12, 18 are discarded, the machine operates in six-color face print. If only sheet inverters 17, 18 are connected between the tic devices 1 and 2, but are discarded between the tic devices 2 and 2, the machine operates in monochrome face print and five-side reverse printing.

If, on the other hand, only the reversers 17 and 18 are included, but the reversers 7 and 18 of the reversing elements 7 and 18 are disengaged, the machine operates in two-color sheets lying left between the ticking faces in front of them.

In this machine, in addition to the overall densitometric measuring device 6 located behind the last tic device 6, it is provided, on the one hand, between the sheet invertors 17, 18 lying first in the direction of the sheet approach and the ticking device 2, and on the other. one of the two densitometric measuring devices 19, which of the two densitometric devices 11, which lie in front of the discarded sheet inverter 17, 18, can naturally be disconnected or also completely removed from the machine.

However, it is also possible, with a reasonable reduction in the total load, to use only one single densitometric measuring device 11 which can be fastened releasably in the machine and which is always fixed in the ticking machine between the last face print (1 or 2) and between with the following turner 37, 18 sheets.

Giant. 3 shows an arbitrary roll 40 of a printing machine in the vicinity of which a total densitometry meter is provided. and / or of the device 60 extending transversely over the entire width of the roll. This device consists of a densitometric bridge 60 which is placed in the machine both mechanically and electrically, and which carries a single densitometer indicated only by short lines for each sheet width band.

Instead of the arrangement shown in Figs. 1 and 2, where the total densitomeeric face measuring device 19 lies on the pressure roll 11 after the last tico face of the face print, these devices can also be arranged on the roll of the following tedder 22, depending on the design features of the printing machine. , 18 sheets, on which the side of the sheet with the obverse lies on top.

However, it is also possible to make the total densitometric measuring devices 19 for printing on one cylinder of one of the tedders 52, 52. That is to say, the sheets lying between the successive printing zones of the reverse printing, namely on a roll whose side of the facing print lies on top. This option does not present any disadvantages; as far as controlling the color density of the face print is concerned, it has the advantage of taking into account certain influences within the face of the reverse printing of the printing machine by automatically controlling the face side. face side.

As already mentioned, individual band densitometry 2 ^£, both those for the party with stockinette Tikka as well as those on the side of the backside Tikka each printing sheet can also be placed on at least two or even Jestro more můstkách, that are always provided on one or more rollers of a printing machine, on which the side of the tactile sheet with face-up or back-side printing just being checked lies on top. This can be done in particular if the width bands to be individually checked are so narrow that all densitometers for controlling all the width bands and all the inks printed in the machine can no longer be located in a row, i.e. the width of the densitometers. that is, on a common platform.

Claims (6)

Multicolour sheet-fed printing machine for face-print, both face-up and back-up, with a plurality of ticking devices and at least one between two ticking devices and a sheet-inverting device displaceable from face-to-face and reverse-printing, and ditnectometric measuring devices or other color testing devices for different sheet widths *, which, when deviating from the setpoint of the assigned bandwidth, generates a warning message or performs an additional adjustment of the color supply in the feed bandwidth, characterized in that the total densitometric measuring devices (19) or other color testing devices for checking the face print are provided downstream of the ticking zone of the face stamp, which is the last one in the direction of the sheet advance, namely on one cylinder of the whole machine the face print wound of each sheet lies at the top, with the color testing means for checking the back print, as total densitometric measuring devices (16), provided downstream of the last tact band of the back print of the machine. . 2. The printing machine according to claim 1, characterized in that the total densitometric face measuring devices (19) are located on the last tactile roller (11) after the last tactile face of the face print, before the next perfecting device (17). , 18). and 3. The printing machine according to claim 1, characterized in that the densitomeeric measuring devices (19) for the facing print are located on one cylinder (12) of the sheet wrap (17, 18) which lies behind the last tico zone. for face print where the side of the sheet with the face print lies on top. 4. The printing machine according to claim 1, characterized in that the total denitrile copper face printing apparatuses (19) are disposed on one roll (18) of the sheet inverters (12, 13, 14) lying between the backing printing zones, or a roll (15), which is located behind the last reverse print tactic band and on which the face side of each sheet lies on top. ₍ 5. The printing machine according to any one of claims 1 to 4, characterized in that the individual band test devices, for example band densitometers (22) of the overall ink device (16, 19) are located on a common web (21). , which is fastened in a ticking machine releasably or replaceably. 6. A printing machine according to any one of Claims 1 to 4, characterized in that the individual color testing devices of the total color testing device (16, 19), for example the individual band densitometers (22) of the densitometric measuring device, are located on at least two balls. (21), which are supported on one or more rolls of a ticking machine, the side being checked with the face or back of the ticking sheet facing up, the rolls being preferably fastened in the ticking machine, and