EP3609707B1 - Roue segmentée d'un dispositif d'impression de corps creux - Google Patents
Roue segmentée d'un dispositif d'impression de corps creux Download PDFInfo
- Publication number
- EP3609707B1 EP3609707B1 EP18703735.3A EP18703735A EP3609707B1 EP 3609707 B1 EP3609707 B1 EP 3609707B1 EP 18703735 A EP18703735 A EP 18703735A EP 3609707 B1 EP3609707 B1 EP 3609707B1
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- EP
- European Patent Office
- Prior art keywords
- printing
- wheel
- segmented wheel
- segment
- segments
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F17/00—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for
- B41F17/08—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces
- B41F17/14—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces on articles of finite length
- B41F17/20—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces on articles of finite length on articles of uniform cross-section, e.g. pencils, rulers, resistors
- B41F17/22—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces on articles of finite length on articles of uniform cross-section, e.g. pencils, rulers, resistors by rolling contact
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F17/00—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for
- B41F17/08—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces
- B41F17/14—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces on articles of finite length
- B41F17/18—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on filamentary or elongated articles, or on articles with cylindrical surfaces on articles of finite length on curved surfaces of articles of varying cross-section, e.g. bottles, lamp glasses
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F17/00—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for
- B41F17/28—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for for printing on curved surfaces of conical or frusto-conical articles
Definitions
- the invention relates to a segment wheel of a device for printing hollow bodies according to the preamble of claim 1.
- Such as B. from the WO 2012/148576 A1 is known, in the packaging industry in a device for decorating hollow bodies each having a cylindrical outer surface, a plurality of printing units are mostly used. Each of these printing units transfers a printing ink to a printing blanket used by these printing units. The outer surface of the hollow body in question is then moved by a relative movement between the outer surface of the hollow body in question and the previously in particular multi-colored printing blanket, in particular by rolling the outer surface of the hollow body in question on this printing blanket, with a z. B. decorated multicolored print motif.
- Such a device for printing or decorating hollow bodies is e.g. B. used in connection with a system usually having several workstations for the production of such hollow bodies, the printing or decoration of the hollow bodies being carried out by a printing process, which is why these hollow bodies can generally also be referred to as printed products.
- the hollow bodies to be printed are in a mass production with z. B. several hundred or even a few thousand pieces per minute, e.g. B. manufactured between 1,500 and 3,000 pieces per minute.
- Such hollow bodies are z. B. made of metal, in particular steel or aluminum, or made of a plastic.
- Such hollow bodies made of metal are z. B. used as beverage cans or as aerosol cans.
- Such hollow bodies made of plastic are z. B. produced in the form of thermoplastic moldings and z. B. as a cup for packaging z. B. of liquid or pasty foods, especially dairy products or beverages.
- the respective hollow body can, however, also be a round tube body made either of plastic or aluminum, whereby a tube is understood to be an elongated, solid, but malleable container which is intended to be filled with a particularly paste-like substance.
- Tubes made of aluminum are z. B. manufactured in a reverse extrusion process.
- Tubes made of plastic are z. B. each produced as seamless tubes by extrusion.
- Another type of hollow bodies to be printed in an aforementioned device can be preferably cylindrical containers or vessels made of glass, e.g. B. bottles or flacons.
- Beverage cans are preferably made of aluminum and are i. d.
- a circular base together with a preferably straight cylinder jacket each consist of a single workpiece, i. H. from a so-called slug or from a round blank, d. H. a circular disc, in a forming process, e.g. B. in a cold extrusion process or in a tensile compression forming process, preferably by deep drawing, in particular by ironing deep drawing, to form a hollow body open on one side, d. H. can be manufactured into a so-called raw can and in a final production step a circular lid is placed on the cylinder jacket and connected to the cylinder jacket in an airtight manner by flanging.
- Tinplate cans are another type of can.
- Tinplate is a tin-plated steel sheet.
- the thickness of the steel sheet is e.g. B. 0.15 mm to 0.49 mm, the thickness of the tin layer z. B. 0.2 microns to 0.8 microns, the tin coating is used for corrosion protection.
- Tinplate cans are so-called three-part cans.
- a rectangular strip of sheet steel is bent to form a preferably straight cylinder jacket, the ends of this strip bent to a cylinder jacket in a butt joint be welded.
- a circular base and a circular cover are placed on the cylinder jacket and the edges are flanged.
- z. B. all three parts, ie the cylinder jacket, the bottom and the cover, preferably a wave profile.
- An aerosol can also known as a spray can or spray can, is a metal can for spraying liquids.
- the liquid filled is under pressure, the propellant gas used to dispense the liquid in question from the can in question, for. B. propane, butane, dimethyl ether or mixtures thereof or compressed air or nitrogen is used.
- the aforementioned WO 2012/148576 A1 describes a device for decorating cans, an arrangement of several printing units, each with one inking unit, being provided for the multicolored decoration of a plurality of cans, each of the inking units belonging to one of the printing units having an ink fountain for providing printing ink, in each ink fountain
- one ink fountain roller is provided for receiving the printing ink from the respective ink fountain
- each inking unit having an inking ductor
- the inking fountain in each case receiving printing ink from the respective inking fountain roller
- several oscillating inking rollers in a roller train following the respective inking fountain in the relevant inking unit and a plurality of ink transfer rollers each cooperating with at least one of the ink distributor rollers are provided, a plate cylinder with at least one printing plate being provided for each inking unit, with the respective plate cylinder only a single inking roller cooperates to apply the printing ink.
- a segment wheel of a device for printing hollow bodies is known, with several segments on the circumference of this segment wheel are formed, wherein a printing blanket for printing the hollow body is arranged on at least one segment, wherein the segment wheel has a base body, wherein each segment is arranged pivotably relative to the base body.
- the DE 1 225 201 B relates to a segment wheel of a device for printing hollow bodies, several segments being formed on the circumference of this segment wheel, a printing blanket for printing the hollow body being arranged on at least one segment, the segment wheel having a base body, each segment being pivotable relative to the base body is arranged.
- the segments can be made in one or more parts. In the case of a two-part design, the two parts of the segment in question are connected to one another by means of screws. The segments are connected to the base body via a pivot bearing.
- the post-published DE 10 2016 201 137 A1 is a device for printing hollow bodies with several segments on its circumference having segment wheel known, wherein a printing blanket for printing the hollow body is arranged on at least one segment of the segment wheel.
- WO 2004/109581 A2 is a device for performing a non-contact digital printing process, e.g. B.
- an inkjet printing process is known to individually print round objects, in particular two-part cans, without using a printing blanket, preferably several print heads are provided, each printing a single ink.
- a short inking unit for a printing machine containing a printing forme cylinder, an inking roller that interacts with the printing forme cylinder and an anilox roller contacting the inking roller, to which a device for ink supply is assigned, with at least one leveling roller between the location of the ink supply and the contact gap between the anilox roller and the Inking roller, based on the direction of rotation of the anilox roller, is arranged, the device for ink supply being designed as a chamber doctor blade.
- a printing machine which comprises at least one printing form, a dampening unit for dampening the printing form with a dampening solution, an inking unit for inking the printing form with a printing ink and a dehumidifying device with a heating roller (temperature control roller) for reducing a proportion of the dampening solution conveyed together with the printing ink , the inking unit being designed as a lifterless short inking unit, with an inking unit roller of the inking unit having a first unwinding contact point at which the inking unit roller is in unwinding contact with the heating roller, the inking unit roller having a second unwinding contact point and a shortest conveying path for the printing ink from the inking unit roller to Printing form is given by at most one intermediate roller.
- an inking unit for offset printing machines for printing on sheets or webs with a plate cylinder which receives the required color from a maximum of two inking rollers with an elastic surface, which interact with an inking cylinder to which the color is fed via an ink supply system that produces a continuous ink film,
- the inking cylinder is followed by an inking roller with almost the same diameter as the plate cylinder, the inking cylinder being assigned a dampening unit with at least one roller that transfers the dampening solution and the transfer of the dampening solution to the inking cylinder in the direction of rotation of the same after the inking and before its contact point with the Inking roller takes place.
- a method for driving a printing unit with a short inking unit in a processing machine with an anilox roller and an associated squeegee device and an inking roller arranged downstream of the anilox roller is known, which is followed by a plate / forme cylinder in the ink flow direction, the plate / forme cylinder with a blanket cylinder and the
- the blanket cylinder is in operative connection with an impression cylinder that carries the printing material, the anilox roller being driven by an individual drive, with the main drive providing a drive to a drive wheel of the printing cylinder and a drive wheel of the blanket cylinder and a second and first drive wheel of the plate / Form cylinder and a drive wheel of the inking roller and a drive wheel of the anilox roller is fed, the individual drive of the anilox roller is inactive, and the drive connection to the main drive between the first drive wheel and the second drive in the setup mode ebsrad of the plate / forme cylinder is separated, the individual drive of the anilox roller is activate
- a device for filling recesses of a cylinder of a printing machine with a liquid is known, with at least two squeegee devices for filling recesses of the cylinder with the liquid being arranged on the cylinder, one application device connected to a conveying system for the liquid and one of these in the direction of rotation of the cylinder are provided downstream working doctor blades, wherein the doctor blades are attached to a beam, wherein the squeegee liquid is drained to a collecting pan.
- An anilox printing unit which has an inking roller and an anilox roller as inking rollers, the anilox roller being mounted on pivot levers, the anilox roller and the inking roller each having bearer rings, one of which is arranged to press the bearer rings of one against the bearer rings of the other inking roller Has device springs to compensate for manufacturing tolerance-related diameter differences.
- DE 28 51 426 A1 is a device for printing one at a time Outer surface of hollow bodies known, with a transport device transporting the hollow bodies to be printed around an axis of rotation being provided, with several printing units being provided, each hollow body to be printed being transportable with the transport device into a printing area of at least one of the printing units, with at least one of the printing units having one Has printing forme cylinder and an inking unit with a single inking roller.
- the invention is based on the object of creating a segmented wheel of a device for printing hollow bodies, with which a production adaptation to a changed format of the hollow bodies can be carried out economically. Even smaller batch sizes, which lead to frequent retooling of the production system due to the upcoming decor change after a short production period, should be able to be produced economically and efficiently.
- Alternative printing methods are e.g. B. a screen printing process or an offset printing process or a printing formless digital printing process. The invention is described below by way of example in connection with a letterpress process.
- a printing cliché is arranged on a lateral surface of a plate cylinder.
- the printing block ready for use for the printing process is a printing form with a printing relief, this printing relief mirroring the printing image provided for the printing process, with only the printing relief being involved in the transfer of the printing ink supplied to the plate cylinder by the inking unit onto the printing blanket in a trouble-free printing operation.
- the printing form or the printing cliché has a plate-shaped, preferably flexible support of finite length z. B. from a steel sheet, a particularly flexible pressure body is arranged on this carrier. At least the opposite ends of the carrier in the circumferential direction of the plate cylinder can, for. B.
- the carrier of the printing form or the printing plate has a thickness in the range of, for. B. 0.2 mm to 0.3 mm.
- the printing block including its carrier has a total thickness in the range of, for. B. 0.7 mm to 1.0 mm, preferably about 0.8 mm.
- the pressure body is z. B. formed from a plastic. The printing body is used for the production of the printing cliché z. B. exposed with a negative film reproducing the print image, with unexposed areas then from the printing body z. B. can be removed by washing or by means of a laser.
- a device for printing or for decorating hollow bodies in particular each having a preferably cylindrical outer surface, preferably has several, e.g. B. eight or ten or even more printing units - also called printing stations -, at least one of these printing units, in the preferred embodiment all of these printing units each having a rotatable printing forme cylinder, in particular a printing forme cylinder designed as a plate cylinder.
- the printing units or printing stations and possibly also the printing forme cylinders in this device are each stored in a frame and can be in the same Printing process can be used to form a multicolored print motif on the same hollow body according to the number of printing units or printing forme cylinders involved.
- the mounting of the printing forme cylinder or plate cylinder is preferably designed as a floating mounting, the respective printing forme cylinder or plate cylinder on one of its end faces, for. B. is mounted on a preferably conical pin.
- a single printing cliché is arranged on the outer surface of each plate cylinder, the carrier of the printing cliché completely or at least largely, in particular more than 80%, of the circumference of the plate cylinder concerned.
- a length of the printing body of the printing block directed in the circumferential direction of the plate cylinder in question is preferably made shorter than the circumference of the plate cylinder in question.
- the printing forme or the printing cliché is arranged or at least can be arranged by means of its carrier in particular magnetically on the outer surface of each plate cylinder, ie the printing forme or the printing cliché is preferably held there magnetically, ie by means of a magnetic holding force.
- the device for printing or decorating hollow bodies each preferably having a cylindrical outer surface, at least one of the printing units or several of these printing units are each designed as a printing unit that prints without printing form in a digital printing process, such a printing unit in particular has at least one inkjet print head or a laser.
- each printing forme cylinder or plate cylinder each has a diameter in the range between 100 mm and 150 mm, in particular between 120 mm and 130 mm, an axial length of the respective printing forme cylinder or plate cylinder, for example.
- B between 200 mm and 250 mm, in particular between 200 mm and 220 mm.
- the printing block to be arranged on the lateral surface of the plate cylinder in question has a width in the axial direction of the plate cylinder in question in the range from 150 mm to 200 mm, preferably approximately 175 mm.
- Each of the e.g. B. designed as a plate cylinder printing forme cylinder transfers with its printing forme or with its printing cliché in each case a certain printing ink on a printing blanket.
- the printing inks used are usually premixed, in particular customer-specific special colors which, with regard to their respective printability, are matched in a special way to the material of the hollow body to be printed, depending on whether a surface z. B. made of aluminum, a tinplate or a plastic is printed.
- a printing ink is provided from the printing form or the printing cliché to the surface of the hollow body in question transferring device.
- This ink-transferring device is preferably designed as a segment wheel rotating about a particularly horizontal axis, wherein on the periphery of this segment wheel, ie on its periphery one behind the other, preferably several, z. B. eight, ten, twelve or even more printing blankets are arranged or at least can be arranged.
- the printing ink-transmitting device can, depending on the printing method used, also be used as a decoration drum or as a blanket cylinder or as a Transfer cylinders can be formed which are each rotatable about an axis of rotation at least during printing.
- the arrangement of the printing blankets on the circumference of the segmented wheel has so far taken place in that the printing blankets on the circumference of the segmented wheel are each z. B. are attached by a material connection, preferably by an adhesive.
- the preferably several printing forme cylinders or plate cylinders are each adjusted radially or at least adjustable against the printing blankets arranged on the circumference of the relevant segmented wheel.
- cylindrical outer surface having hollow bodies is arranged on the circumference of the segment wheel one behind the other a larger number of blankets than are provided in each case radially adjusted or at least adjustable printing forme cylinders or plate cylinders on the segment wheel.
- the preferably carousel-like printing ink transferring device in particular the segment wheel has a diameter of, for. B. 1,400 mm to 1,600 mm, preferably about 1,520 mm to 1,525 mm, and has at z. B. eight associated printing forme cylinders or plate cylinders on its circumference one behind the other z. B. twelve printing blankets.
- the surface of each printing plate is preferably designed with a greater hardness than the hardness of the respective surface of the printing blankets.
- the surface of the printing blankets is preferably planar, that is to say without profiling.
- the respective printing forms of these printing forme cylinders or the respective printing blocks of these plate cylinders roll on the printing blankets moved with the segmented wheel, whereby the printing blocks at least their printing relief z. B. 0.2 mm to 0.25 mm deep into the respective printing blanket and thereby produce a flattening extending in the axial direction of the segment wheel in the respective printing blanket, ie a roller strip.
- An intensity of the flattening is z. B. before or at the beginning of a printing process z. B. by means of remote control by setting one of the printing forme cylinder or plate cylinder in question on the printing blanket in question of the segment wheel exerted contact force adjustable or is set in such a way.
- the hollow bodies to be printed here for example. B. the two-part cans to be printed, z. B. by means of a hollow body to be printed, preferably along at least part of a circular path, d. H. a circular arc around an axis of rotation transporting a transport device, preferably by means of a feed wheel, in particular by means of a mandrel wheel, continuously or at a set cycle, to at least one of the printing units belonging to the device for printing a lateral surface of hollow bodies and thus to a printing area of at least one of these printing units transported.
- segment wheel arranged printing blankets, or the hollow bodies to be printed are each directly and immediately by means of this transport device, d. H. without the help of a z. B. designed as a segment wheel printing ink-transmitting device in the respective printing area of at least one of these printing units transported, which is the case when the printing unit in question in a direct printing process, for. B. prints in an inkjet printing process.
- the segment wheel likewise rotating about a preferably horizontal axis feed wheel or mandrel wheel has concentrically to its circumferential line in preferably equidistant distribution several, z. B. 24 or 36 holders z. B. each in the form of a mandrel protruding from an end face of the mandrel wheel or a spindle, each holder holding one of the hollow bodies to be printed or at least being able to hold it.
- a transport device designed as a mandrel wheel is sometimes also referred to as a rotary table with spindles.
- a mandrel wheel is z. B. in the EP 1 165 318 A1 described.
- each mandrel is briefly referred to as a mandrel.
- One longitudinal axis each The mandrel is directed parallel to the axis of the mandrel wheel.
- each z. B. designed as a two-part box to be printed hollow bodies
- each of these hollow bodies z. B. by means of a conveyor, e.g. B. a belt conveyor to which z. B. designed as a mandrel wheel transport device and there at a transfer station z. B.
- each mandrel is z. B. rotatable around its respective longitudinal axis by means of a motor and in particular adjustable to a certain circumferential speed, so that each hollow body held by a mandrel to be printed can be rotated in addition to the rotation of the mandrel wheel by an independently executed or at least executable rotation by the mandrel.
- the hollow body to be imprinted is slipped onto one of the mandrels of the mandrel wheel preferably during a standstill phase of the relevant mandrel, the relevant mandrel not rotating about its own longitudinal axis during its standstill phase.
- the occupancy of each mandrel with a hollow body to be printed is preferably checked, e.g. B. contactless with a sensor. If there is no assignment of a mandrel with a hollow body to be printed, the mandrel wheel z. B. moved so that a contact of the relevant free mandrel with a blanket of the segment wheel is reliably avoided.
- Two-part cans to be printed are z. B. to the mandrel wheel in a machining station upstream of the mandrel wheel, z. B. deep-drawn from a round blank. In a further processing station, the edge of each two-piece can is trimmed on its open end.
- Each two-part box is z. B. washed, especially their inside washed out, if necessary, the inner wall and the bottom of the two-piece box in question are also painted. At least the outer surface of each two-part box is z. B. primed, especially with a white primer. After printing on their outer surface, each two-part can is from its respective holder z. B. on the mandrel wheel z. B.
- the printed two-part cans go through in particular a dryer, e.g. B. a hot air dryer in order to cure the at least one printing ink applied to its respective lateral surface.
- the printing process for printing in particular the respective outer surface of z. B. held on the mandrel wheel hollow bodies, in particular two-part cans begins with all of the printing inks required for the print image to be printed on the respective outer surface of the hollow body, e.g. B. from the respective printing block of z. B. on the segmented wheel plate cylinder can be applied to the same by one of the printing blankets arranged on the circumference of the segmented wheel.
- the relevant printing blanket colored with all the necessary printing inks then transfers these printing inks simultaneously during a single rotation of the hollow body to be printed on one of the mandrels of the mandrel wheel around its longitudinal axis to the circumferential surface of this hollow body in a touch contact between the printing blanket and the surface of the hollow body to be printed.
- the Printing inks from the blanket onto the outer surface of the hollow body rotates the z. B. held by one of the mandrels of the mandrel wheel to be printed hollow body with a circumferential speed of the same amount as the relevant z. B. arranged on the circumference of the segment wheel printing blanket.
- the respective peripheral speeds of the hollow body and printing blanket or segment wheel are therefore synchronized with one another, the z.
- the segment wheel carrying the printing blanket in question is therefore the z. B. on the respective mandrel of the mandrel wheel to be set circumferential speed.
- the circumferential speed of the printing forme cylinder carrying the printing form or of the plate cylinder carrying the printing block is or is preferably depending on the peripheral speed, for. B. set the segment wheel.
- the mandrel wheel and the segment wheel can, for. B. driven by the same central machine drive and optionally mechanically z. B. coupled to one another via a transmission.
- the mandrel wheel and the segment wheel are each individually driven by their own drive and their respective rotational behavior is controlled or regulated by a control unit.
- FIG. 1 shows in a simplified schematic representation and by way of example a generic device for printing or for decorating hollow bodies 01, in particular each having a preferably cylindrical outer surface, e.g. B. two-part cans 01, this hollow body 01 with a conveyor z. B. sequentially the z. B. as rotating or at least rotatable Feed wheel, in particular designed as a mandrel wheel 02 transport device and held there individually on a holder on this transport device.
- this transport device is preferably designed as a mandrel wheel 02.
- a printing ink-transmitting device e.g. B. a rotating or at least rotatable segment wheel 03 together, along the or the circumference of which several printing blankets are arranged one behind the other.
- a plurality of printing forme cylinders are provided along its circumference that are radially adjusted or at least adjustable against this segment wheel 03, with a printing forme, in particular a printing block, being arranged on the respective outer surface of this printing forme cylinder or plate cylinder 04, with this printing block is particularly suitable for the execution of a letterpress process.
- a specific printing ink is supplied to each of the printing forme cylinders or plate cylinders 04 by means of an inking unit 06 in order to color its printing forme or printing block.
- the printing form cylinders are each designed as a plate cylinder 04 carrying at least one printing block.
- Fig. 2 and 3 show in a simplified schematic representation some details of the inking unit 06 interacting with a plate cylinder 04, which z. B. for use in the in Fig. 1
- the device shown for printing or for decoration, in particular, of hollow bodies 01 each having a preferably cylindrical outer surface is provided.
- the inking unit 06 proposed here advantageously has a very short, in particular two-roller, roller train consisting of only a few, preferably a maximum of five rollers, for the ink transport from an ink reservoir to the plate cylinder 04 in question. In the case of the two-roller roller train, this roller train consists only of a single inking roller 07 and an anilox roller 08.
- FIG. 2 shows an example of a (short) inking unit 06 with a two-roller roller train in a first operating position in which the inking roller 07 and the anilox roller 08 are positioned against one another, the inking roller 07 is positioned against the plate cylinder 04 and the plate cylinder 04 is also positioned radially against the printing ink from the plate cylinder 04 on the outer surface of the respective hollow body 01 transmitting device, in particular on the segment gear 03 are employed.
- Fig. 3 shows, however, for that in the Fig.
- the inking unit 06 shown has a second operating position in which the inking roller 07 and the anilox roller 08 are switched off from one another, the inking roller 07 is switched off from the plate cylinder 04 and the plate cylinder 04 is also switched off from the device transferring the printing ink, in particular from the segmented wheel 03.
- the on and off mechanism will be discussed later.
- the plate cylinder 04 and the anilox roller 08 are z. B. each independently from a motor 11; 12 driven in rotation, especially in the case of the one preferably used in the Fig. 2 and 3 illustrated inking unit 06, the relevant motor 11; 12 z. B. in its respective speed of a z. B. electronic control unit is particularly regulated or at least controllable.
- the z. B. designed as a segment wheel 03 printing ink-transmitting device is driven in the preferred embodiment by its own drive or in an embodiment not according to the invention by a central machine drive.
- the inking roller 07 is or is z. B. rotatively driven by the anilox roller 08 by friction or also independently by a motor.
- an outer diameter d07 of the inking roller 07 and an outer diameter d04 of the at least one printing form, in particular the plate cylinder 04 carrying at least one printing block are equal in terms of amount.
- At least one printing block is arranged or at least can be arranged on the lateral surface of the plate cylinder 04, so that in the embodiment with the same external diameters d04; d07 the plate cylinder 04 carrying the printing block and the inking roller 07 each have an identical circumferential length exhibit.
- the inking roller 07 in the first operating position of the inking unit 06 cooperating with the plate cylinder 04, in which the inking roller 07 and the anilox roller 08 are positioned against one another, the inking roller 07 is positioned on the plate cylinder 04 and the plate cylinder 04 is also positioned on the segmented wheel 03, at least the respective centers of the plate cylinder 04, the inking roller 07 and the anilox roller 08 are arranged along the same straight line G.
- a detection device z. B. is provided in the form of a rotary encoder, this rotary encoder in particular being rigidly connected to a shaft of the inking roller 07.
- the signal generated by the rotary encoder when the inking roller 07 rotates is used by the control unit to set the speed of the inking roller 07 by means of the rotation of the anilox roller 08 or, if necessary, to track it in such a way that the plate cylinder 04 and the inking roller 07 are synchronized or is set so that the peripheral speed of the inking roller 07 corresponds to the peripheral speed of the plate cylinder 04 within previously defined permissible tolerance limits.
- the control unit preferably adjusts the circumferential speed of the anilox roller 08 during the setting phase carried out by it in such a way that it has a lead or lag compared to the circumferential speed of the plate cylinder 04, particularly briefly - and therefore not permanently.
- the plate cylinder 04 and inking roller 07 By designing the plate cylinder 04 and inking roller 07 with the same circumferential length in terms of amount, and by setting the synchronism between the plate cylinder 04 and the inking roller 07, the effect of stenciling, which is detrimental to the printing quality, is largely avoided.
- the drive concept described here with a friction-driven inking roller 07 also has the advantage that a separate drive is not required for the inking roller 07, which saves costs and, because of the simpler mechanical construction, e.g. B. an exchange of the inking roller 07 facilitates maintenance or repair work.
- the inking roller 07 has a closed, preferably rubberized, lateral surface.
- the anilox roller 08 has a z. B. coated with a ceramic shell surface, with a hashur of z. B.
- the outer diameter d08 of the anilox roller 08 is preferably larger than the outer diameter d07 of the inking roller 07.
- the anilox roller 08 should therefore have the largest possible delivery volume.
- the respective direction of rotation of the segmented wheel 03, the plate cylinder 04, the inking roller 07 and the anilox roller 08 is indicated by an arrow indicating the direction of rotation.
- At least the anilox roller 08 has a temperature control device, with the aid of which the jacket surface of the anilox roller 08 is tempered.
- the temperature control of the anilox roller 08 works z. B. with a introduced into the interior of the anilox roller 08 temperature control fluid, wherein the temperature control fluid z. B. is water or another liquid coolant.
- the delivery volume of the anilox roller 08 can be influenced, since this influences the viscosity of the printing ink to be transported by the inking unit 06.
- a thickness of a color film to be applied to the cylindrical outer surface of the hollow body 01 to be printed and formed by the printing ink is, for example, approx. B. at less than 10 microns, in particular at about 3 microns.
- the ink reservoir of the inking unit 06 is z. B. designed as a chamber doctor blade system 09 acting in conjunction with the anilox roller 08.
- Chamber squeegee system 09 has at least one ink pan, a squeegee bar that is set or at least adjustable to the axis parallel to the anilox roller 08, and preferably also a pump for conveying the printing ink, a single structural unit.
- This chamber doctor blade system 09 is in the inking unit 06, ie on a frame of the inking unit 06, preferably only on one side z. B.
- This structural unit of the chamber doctor blade system 09 preferably forms a cantilever arm on a side frame of the inking unit 06.
- Fig. 4 shows in a perspective view the chamber doctor blade system 09, which is designed as a single structural unit, in cooperation with the anilox roller 08 of the inking unit 06.
- the anilox roller 08 After the anilox roller 08 has taken up printing ink from the ink reservoir, ie in particular from the chamber doctor blade system 09, the anilox roller 08 transports this printing ink directly and via further rollers of the roller train belonging to the inking unit 06 to the preferably only one inking roller 07.
- a rider roller 13 In one in the direction of rotation of the anilox roller 08 the area between the chamber doctor blade system 09 and the inking roller 07 following the chamber doctor blade system 09 attached to the anilox roller 08, a rider roller 13 is preferably employed or at least adjustable to the anilox roller 08 in order to improve the ink transport of the anilox roller 08.
- the rider roller 13 is arranged axially parallel to the anilox roller 08.
- the rider roller 13 is not regarded as belonging to the roller train of the inking unit 06, since it does not transfer any printing ink from the anilox roller 08 to another roller.
- the from the anilox roller 08 z. B. rotatively driven by friction rider roller 13 has z. B. a rubberized outer surface.
- the rider roller 13 employed on the anilox roller 08 sucks some of the printing ink picked up by the anilox roller 08 from the chamber doctor blade system 09 from the hasher or the cells of the anilox roller 08 and at least places this printing ink on the surface of the anilox roller 08 partially on webs formed on the outer surface of the anilox roller 08.
- a temperature control device having anilox roller 08 also improves the effectiveness of a control of the ink density in that the rider roller 13 rolling on the anilox roller 08 contributes to the provision of a larger amount of printing ink.
- the rider roller 13 rolling on the anilox roller 08 reduces both density differences that can arise from manufacturing tolerances of the anilox roller 08 and the risk of the hash or cells of the anilox roller 08 being visible on the printing material, that is to say here on the outer surface of the hollow body 01 to be printed, as a result of an insufficiently applied ink at least in places.
- a plate changer 14 is provided for each printing forme cylinder, in particular plate cylinder 04, with which the printing forme intended for the respective printing forme cylinder or the printing cliché intended for the respective plate cylinder 04 within z.
- the Fig. 5 and 6th show in a perspective representation a preferred embodiment of a very advantageously designed plate changer 14 in two different operating positions for carrying out a plate change or printing forme change that can be carried out preferably automatically, reliably and preferably in register in a very short set-up time.
- FIG. 5 shows a first operating position, in the axially laterally next to the printing unit on the printing forme cylinder or plate changer 14 z. B. presented a printing plate or can be removed from the plate changer 14.
- Fig. 6 shows a second operating position in which immediately before the printing forme cylinder or plate cylinder 04 along this from the plate changer 14 from z. B. a printing plate placed directly on the associated plate cylinder 04 or a printing plate removed from the plate cylinder 04 and removed with the plate changer 14 in its first operating position.
- the disk changer 14 has a particularly planar, z. B. table-shaped support surface 16 on which z. B. arranged or to be arranged on the plate cylinder 04 printing cliché can preferably be placed completely.
- the support surface 16 is preferably linearly movable along a transport path, in particular along the axis of rotation of the associated printing forme cylinder or plate cylinder 04 between at least two defined positions, bi-directionally movable, ie arranged to be movable back and forth.
- the plate changer 14 In a first position of the support surface 16 located laterally next to the printing unit, the plate changer 14 assumes its first operating position, in a second position of the support surface 16 located directly in front of the printing forme cylinder or plate cylinder 04 longitudinally to it, its second operating position. In the first operating position, the support surface 16 of the plate changer 14 is at least partially in front of an end face of the relevant printing forme cylinder or plate cylinder 04.
- the support surface 16 of the plate changer 14 is preferably at least partially below the outer surface of the printing forme cylinder or plate cylinder 04.
- the movement of the support surface 16 of the disc changer 14 takes place, for. B. along a cross member 17 arranged longitudinally to the printing forme cylinder or plate cylinder 04.
- the support surface 16 of the plate changer 14 thus has an axial travel path with respect to the printing forme cylinder or plate cylinder 04 in question.
- the movement of the support surface 16 is e.g. B. each limited by a stop.
- At least the carrier of the printing block in question is z. B.
- the relevant printing block can be arranged in register on the support surface 16 of the plate changer 14.
- at least two edges of the carrier of the relevant are arranged at right angles to one another Printing clichés brought into touch contact with stops arranged on the support surface 16 of the plate changer 14, in particular formed by register pins, a first edge of the carrier of the printing cliché in question to a first register pin and a second edge of the carrier of the printing cliché in question to a second one, which is orthogonal to the first edge Register pin strikes, one of these two register pins being changeable and preferably adjustable in its position.
- the relevant printing plate can be aligned in register.
- the adjustment of the position of the adjustable pin can be done manually or automatically. Since the printing block is fed to the plate cylinder 04 in question in register, the plate cylinder 04 z. B. no centering pin and no other register device provided.
- the disk changer 14 has in its preferred embodiment, in addition to the support surface 16 for receiving a z. B. the plate cylinder 04 in particular in register to be supplied printing plates z. B. a subject in which z. B. a printing plate removed from the plate cylinder 04 can be stored.
- a z. B. by means of its carrier in particular magnetically held on the lateral surface of the plate cylinder 04 in question printing cliché is z. B. by means of a tool guided tangentially to the printing form, e.g. B. by means of a guided between the carrier of the printing block and the surface of the plate cylinder 04 in question is lifted from the surface of the plate cylinder 04 in question or can at least be lifted from there.
- the one end of the relevant printing block lifted from the lateral surface of the relevant plate cylinder 04 is introduced into the relevant compartment of the plate cylinder 04 by rotating the relevant plate cylinder 04.
- the entire printing block detached from the outer surface of the plate cylinder 04 in question is then pushed into the compartment of the plate changer 14 in question.
- There is at least one stamp preferably two stamps arranged at a distance in the longitudinal direction of the plate cylinder 04 concerned, each with a stamp directed opposite to the magnetic holding force, towards the support surface 16 of the plate changer 14, for example.
- B. essentially orthogonal effective direction is provided with which at least one stamp at least one end of the printing cliché held on the support surface 16 of the plate changer 14 facing the relevant plate cylinder 04 can be detached from this support surface 16 and transferred to the relevant plate cylinder 04 due to a lifting movement of the at least one stamp is.
- the at least one stamp is z.
- magnets are used, these magnets preferably being designed as permanent magnets.
- the previously described configuration of the plate cylinder 04 has the advantage that a conveying device for transferring the printing cliché to the relevant plate cylinder 04 or for removing the printing cliché from the relevant plate cylinder 04 is not required and the plate changer 14 can therefore be implemented very inexpensively. In particular, a plate change can be carried out automatically with the plate changer 14 described above.
- the printing forme cylinder or plate cylinder 04 is mounted in particular at both ends on a load arm of a preferably one-sided first lever arrangement 18 consisting of a power arm and the load arm, the power arm and the The load arm of this first lever arrangement 18, which is arranged at an angle to the power arm, can be pivoted together about a first axis of rotation 19, which is axially parallel to the plate cylinder 04.
- B. arranged in the form of a hydraulic or pneumatic working cylinder, whereby when this first drive 21 is actuated, depending on its direction of action, the printing forme cylinder or plate cylinder 04 arranged on the load arm of this first lever arrangement 18 is either supported by a printing blanket z.
- the segment wheel 03 is turned off or employed at the same. To limit the from the printing forme cylinder or plate cylinder 04 against the printing blanket in question z. B.
- a first stop 22 is provided, for example, for the power arm of the first lever arrangement 18, by means of which a path covered by the pivoting movement of the printing forme cylinder or plate cylinder 04 against the segmented wheel 03 is limited.
- the pressure exerted by the printing forme cylinder or plate cylinder 04 against the segmented wheel 03 can be adjusted.
- the inking roller 07 is also mounted, in particular at both ends, on a load arm of a, preferably one-sided, second lever arrangement 23 consisting of a force arm and the load arm, the force arm and the load arm of this second lever arrangement 23 together about the first axis of rotation 19, which is axially parallel to the plate cylinder 04 are pivotable.
- the anilox roller 08 is also mounted, in particular at both ends, on a load arm of a preferably one-sided third lever arrangement 24 consisting of a force arm and the load arm, the force arm and the load arm of this third lever arrangement 24 together about a second axis of rotation directed axially parallel to the anilox roller 08 26 are pivotable, the second axis of rotation 26 of the third lever arrangement 24 being arranged on the second lever arrangement 23, the second axis of rotation 26 being designed to be stationary on the second lever arrangement 23.
- the load arm of the first lever arrangement 18 is a preferably controllable second drive 27, which acts on the force arm of the second lever arrangement 23 when it is actuated, by means of which the inking roller 07 can be adjusted to or from the plate cylinder 04 depending on the direction of action of the second drive 27.
- a preferably controllable third drive 28 which, when it is actuated, acts on the force arm of the third lever arrangement 24, by means of which the anilox roller 08, preferably together with the chamber doctor blade system 09, can be adjusted to or from the inking roller 07 depending on the direction of the third drive 28 this can be turned off.
- the second drive 27 and / or the third drive 28 are each z. B.
- the pivoting movement of the load arm of the second lever assembly 23 is e.g. B. limited by a preferably adjustable, in particular adjustable by an eccentric first stop system 29, whereby the contact pressure exerted by the inking roller 07 against the printing forme cylinder or plate cylinder 04 is limited or at least limited.
- the pivoting movement of the load arm of the third lever assembly 24 is e.g. B. limited by a preferably adjustable, in particular adjustable by an eccentric second stop system 31, whereby the contact pressure exerted by the anilox roller 08 against the inking roller 07 is limited or at least can be limited.
- Fig. 2 shows an example of a first operating state in which the first drive 21 and the second drive 27 and the third drive 28 are each inactive or in their idle state, whereby the anilox roller 08 to the inking roller 07 and the inking roller 07 to the printing forme cylinder or plate cylinder 04 and the printing forme cylinder or plate cylinder 04 are each employed on the segment wheel 03.
- Fig. 3 shows an example of a second operating state in which the first drive 21 and the second drive 27 and the third drive 28 are each actuated or in their working state, whereby the anilox roller 08 from the inking roller 07 and the inking roller 07 from the printing forme cylinder or Plate cylinder 04 and the printing forme cylinder or plate cylinder 04 from segment wheel 03 are each turned off.
- the respective power arm and / or load arm of the three aforementioned lever arrangements 18; 23; 24 is or are each z. B. formed as a pair of opposing lever rods or side frame walls, between which either the printing forme cylinder or plate cylinder 04 or the inking roller 07 or the anilox roller 08 is arranged in the respective assignment described above.
- the three aforementioned lever arrangements 18; 23; 24 are each arranged in different vertical planes spaced apart from one another, so that they do not interfere with one another in their respective pivotability.
- Fig. 13 As already described and in Fig. 13 shown, are on the circumference of the segment 03 in a row usually several, z. B. eight to twelve printing blankets 33 are arranged, wherein in the printing process during the rotation of this segment wheel 03 about an axis of rotation 34 printing forms of the printing forme cylinders or printing blocks of the plate cylinder 04 roll on the printing blankets 33 moved with this segment wheel 03.
- the printing plates press at least their printing relief z. B. 0.2 mm to 0.25 mm deep into the respective printing blanket 33, whereby the printing blankets are subject to wear and tear and depending on their nature and in particular mechanical stress after a certain number of prints, e.g. B. after 50,000 printed hollow bodies 01 must be renewed.
- each of these printing blankets 33 to be arranged on the segment wheel 03 is in each case on a preferably flat, tabular metal support with a material thickness of, for. B. 0.2 mm cohesively, in particular applied by an adhesive.
- the respective preferably magnetizable metal carrier is then, together with the printing blanket 33 arranged on it, on one of the segments 32 on the circumference of the segment wheel 03, for. B. by at least one holding magnet 81 provided there on the circumference for each printing blanket 33 or its carrier, in particular arranged in the correct position.
- z. B. on the leading edge 37 of the respective metal carrier in the direction of rotation of the segmented wheel 03 each has an acute-angled hanging leg 38, this hanging leg 38 when the respective metal carrier is arranged on one of the segments 32 on the circumference of the segmented wheel 03 into one on the circumference of this segmented wheel 03 parallel to the axis of rotation 34 directed z. B. formed as a groove recess 36 engages and comes to rest on a leading edge 39 of the relevant recess 36 in the direction of rotation of the segmented wheel 03, in particular in a form-fitting manner.
- the printing blankets 33 are each preferably designed as a rubber blanket.
- the direction of rotation of the segment wheel 03 carried out during the printing process is in the Fig. 13 indicated by a direction of rotation arrow.
- the hollow bodies 01 which are brought up to the segmented wheel 03 by the mandrel wheel 02 rotating about the axis of rotation 41 on a mandrel, are individually and briefly one after the other in the printing process, i.e. for a single rotation of the hollow body 01 to be printed on, through a primarily radial movement of the mandrel in question relevant currently printing blanket 33 pressed on.
- the device for automatically changing the printing blankets 33 is preferably of modular construction and, as in FIG Figures 7 to 12 shown as an example - as modules z. B. a memory device 42 for several, z. B. up to twelve blankets 33 on ( Fig. 7 ) as well as a device 43 for vertical transport of the aforementioned storage device 42 ( Fig. 8 ) and a device 44 for the horizontal transport of one of the printing blankets 33 between the storage device 42 and an installation location on the segmented wheel 03 ( Fig. 9 ).
- the Fig. 10 shows the storage device 42 in its operating state arranged on the device 43 provided for its vertical transport.
- the storage device 42 has in a preferably cuboid housing several vertically arranged compartments, in each of which a single printing blanket 33 is stored on its back, ie lying on its carrier, preferably in a horizontal orientation, wherein in the housing z. B. at least as many compartments are provided as the associated segment wheel 03 has segments 32 for blankets 33 on its circumference.
- the subjects are each z. B. open at least on one of its long sides in order to enable the respective blanket 33 to be fed in or removed from the open side of the respective compartment.
- This storage device 42 is preferably on or on a carrier of the device 43 for the vertical transport of this storage device 42 as a light, z. B. toolless replaceable module attached or at least attachable.
- the device 43 for the vertical transport of the storage device 42 is z. B. designed executing a lifting movement, the vertical travel z. B. is about 200 mm.
- the lifting movement of the device 43 for the vertical transport of the storage device 42 is z. B. carried out by means of a preferably driven by an electric motor trapezoidal screw spindle.
- a device 44 for the horizontal transport of these printing blankets 33 is provided in order to transport the individual printing blankets 33 between the storage device 42 and an assembly location on a segment 32 of the segmented wheel 03.
- This device 44 for the horizontal transport of the printing blankets 33 has, for. B.
- a carriage 46 which can be moved bidirectionally, in particular linearly, between two end points on, wherein a single blanket 33 is transported with the carriage 46 or at least can be transported.
- a blanket 33 automatically removed from the storage device 42 is preferably lying on its back on the carriage 46 against a z.
- B. is transported under the segmented wheel 03 assembly location and taken up there by a segment 32 of the segmented wheel 03.
- a blanket 33 to be removed from a segment 32 of the segmented wheel 03 is preferably peeled off from the relevant segment 32 with a spatula 47 that is set against the relevant segment 32 or at least that can be set there.
- the spatula 47 employed at an acute angle or tangentially to the relevant segment 32 of the segment wheel 03 in connection with a rotary movement of the segment wheel 03 directed against the spatula 47 in the preferred embodiment in particular, the metal carrier of the relevant printing blanket 33, which is held magnetically on the circumference of the segmented wheel 03, stands out from the relevant segment 32 and thus from the circumference of this segmented wheel 03.
- the spatula 47 is shown both in an operating position set against the relevant segment 32 of the segmented wheel 03 and in a parked operating position, these operating positions being assumed alternatively.
- the renewal or replacement of at least one of the printing blankets 33 arranged on the circumference of the segmented wheel 03 is then preferably carried out as follows:
- the segment wheel 03 conveys a printing blanket 33, which is arranged on its circumference, and is to be removed, into a position at which this printing blanket 33 can be dismantled using the device for automatically changing the printing blankets 33.
- the slide 46 of the device 44 for the horizontal transport of the printing blankets 33 moves along its travel path to the end point which is closest to the dismantling location of the printing blanket 33 to be removed.
- This position of the carriage 46 is preferably monitored by sensors and / or by a first switching element 48, e.g. B. by an inductive or capacitive proximity switch.
- the spatula 47 is preferably positioned on the edge 37 of the metal support of the relevant printing blanket 33 to be removed, which is trailing in the direction of rotation of the segmented wheel 03.
- An at least brief rotational movement of the segmented wheel 03 against the direction of rotation carried out during the printing process peel the printing blanket 33, which is preferably held magnetically on the circumference of the segmented wheel 03, from the circumference of this segmented wheel 03, i.e. the metal carrier of the printing blanket 33 is lifted from its support on the segmented wheel 03 .
- the spatula 47 is then placed back from the circumference of the segmented wheel 03.
- the printing blanket 33 released from the relevant segment 32 of the segmented wheel 03 then falls due to gravity either directly into a storage device for worn printing blankets 33 or is transported to this storage device for worn printing blankets by means of the slide 46 of the device 44 for the horizontal transport of the printing blankets 33.
- a new printing blanket 33 glued to a metal carrier is inserted, this storage device 42 being preferably arranged in a raised upper position by the device 43 for its vertical transport .
- the slide 46 of the device 44 for the horizontal transport of one of the printing blankets 33 between the storage device 42 and the installation location on the segmented wheel 03 is arranged below the compartment with the new printing blanket 33.
- the new printing blanket 33 is placed on the carriage 46 of the device 44 for horizontal transport. It is preferably sensory and / or by a second switching element 49, for. B.
- the carriage 46 of the device 44 for the horizontal transport of the printing blankets 33 moves along its travel path to the end point which is closest to the installation location of the new printing blanket 33, this position of the carriage 46 in turn preferably being sensory and / or is monitored by a third switching element 51, e.g. B. by an inductive or capacitive proximity switch.
- the segment wheel 03 is also already in a rotational angle position suitable for receiving the new printing blanket 33, this rotational angle position being e.g. B.
- the new printing blanket 33 is aligned in its position at least in register by an impact against at least stop 52 before it is mounted on the circumference of segmented wheel 03.
- a drive is provided, this drive z. B. is designed as a compressed air cylinder.
- this segmented wheel 03 rotates in its direction of rotation carried out during the printing process and thereby takes the new printing blanket 33 on its circumference.
- the slide 46 of the device 44 for the horizontal transport of the printing blankets 33 is then moved again to the storage device 42 for the several new printing blankets 33 in order to fetch another new printing blanket 33 if necessary.
- this device has a segment wheel 03 that can be rotated about an axis of rotation 34, the segment wheel 03 having several segments 32 one behind the other on its circumference, each for receiving a printing blanket 33 has, wherein at least one of the printing blankets 33 arranged on one of the segments 32 is arranged to roll or at least roll off the hollow body 01 to be printed, with several printing units being provided, with at least one of the printing units being attached to at least one of the on the circumference of the segment wheel 03 arranged printing blankets 33 is employed or at least adjustable, with at least one of the printing units having a printing forme cylinder 04, with a plate changer 14 for automatically changing a printing forme on this printing forme cylinder 04 being arranged in association with the respective printing forme cylinder 04, and with one in association with the segment wheel 03 A device for automatically changing at least one of the printing blankets 33 arranged on the circumference of this segmented wheel 03 is arranged.
- the plate changer 14 preferably has a support surface 16 on which the printing form to be arranged or arranged on the printing forme cylinder 04 can be placed, this support surface 16 being movable bidirectionally along a transport path between at least two defined positions.
- the printing forme to be supplied to the printing forme cylinder 04 is z. B. held on the support surface 16 of the disk changer 14 by a magnetic holding force.
- the device for automatically changing the printing blankets 33 is particularly modular, with a storage device 42 for several printing blankets 33 as well as a device 43 for vertical transport of this storage device 42 and a device 44 for horizontal transport of one of the printing blankets 33 between of the storage device 42 and one of the segments 32 of the segment wheel 03.
- the storage device 42 has a plurality of compartments arranged vertically one above the other in a housing, in each of which a single printing blanket 33 is stored or at least can be stored.
- the printing blankets 33 are each stored in the storage device 42 preferably lying on their backs and / or in a horizontal orientation.
- the device 43 for the vertical transport of the storage device 42 is z.
- executing a lifting movement and / or the device 44 for the horizontal transport of the printing blankets 33 has a bidirectionally movable carriage 46 between two end points, with the carriage 46 each transporting a single printing blanket 33 or at least being transportable.
- the plate changer 14 and the device for automatically changing the printing blankets 33 are, for. B.
- the printing forme to be arranged on the printing forme cylinder 04 is preferably in register with regard to its mounting position on the printing forme cylinder 04 on the support surface 16 of the plate changer 14 and / or the printing blanket 33 to be arranged on the circumference of the segment wheel 03 is on the carriage 46 of the device 44 for the horizontal transport of the Printing blankets 33 are arranged in the correct position with regard to its assembly position on a segment 32 of the segment wheel 03.
- An inking unit 06 transporting printing ink to the printing forme cylinder 04 is preferably designed as a short inking unit having an anilox roller 08.
- a device for printing hollow bodies 01 which has a segment wheel 03 rotatable about an axis of rotation 34, the segment wheel 03 having several segments 32 one behind the other on its circumference, each for receiving a printing blanket 33, at least one of the segments being arranged on one of the segments 32
- Printing blankets 33 are arranged to roll or at least roll off the hollow body 01 to be printed, with adjacent segments 32 being separated from one another by a recess 36 directed parallel to the axis of rotation 34 of the segment wheel 03, it is also advantageous that each of the printing blankets 33 are each on a plate-shaped metallic carrier is arranged, wherein the carrier together with the printing blanket 33 arranged on it is arranged or at least can be arranged on one of the segments 32 of the segment wheel 03 so as to be exchangeable as a whole, the carrier arranged on one of the segments 32 of the segment wheel 03 on this segment 32 in a m form fit and / or is held in a force fit.
- Each carrier of a printing blanket 33 is preferably bent at an acute angle at its leading edge 37 in the direction of rotation of the segmented wheel 03, this bevel 38, in the operating state of this carrier arranged on a segment 32 of the segmented wheel 03, against an edge 39 of the leading in the direction of rotation of the segmented wheel 03 relevant recess 36 formed on the circumference of the segmented wheel 03 is applied, wherein the bevel 38 of the carrier is arranged or at least can be arranged in a form fit on this edge 39 of the recess 36.
- the plate-shaped metallic carrier is particularly flexible and, together with the printing blanket 33 arranged on it, forms e.g. B. a metal blanket.
- the carrier arranged on one of the segments 32 of the segment wheel 03 is held on this segment 32 by a magnetic force.
- On the circumference of the segment gear 03 are in a preferably equidistant distribution one behind the other z. B. eight to twelve segments 32 each arranged for receiving a blanket 33.
- a device for automatically changing the printing blankets 33 is provided, the device for automatically changing the printing blankets 33 is preferably modular and as modules a storage device 42 for several printing blankets 33 and a device 43 for vertical transport of the aforementioned storage device 42 and a device 44 for the horizontal transport of one of the printing blankets 33 between the storage device 42 and one of the segments 32 of the segment wheel 03.
- the storage device 42 has in a housing in particular a plurality of compartments arranged vertically one above the other, in each of which a single printing blanket 33 is stored or at least can be stored.
- the housing of the storage device 42 for. B. at least as many compartments are provided as the associated segment wheel 03 has segments 32 for blankets 33 on its circumference.
- the device 43 for the vertical transport of the storage device 42 is designed to perform a lifting movement and / or the device 44 for the horizontal transport of the printing blankets 33 has a carriage 46 which can be moved bidirectionally between two end points, with one in each case being the carriage 46 individual printing blanket 33 is transported or at least can be transported.
- a method for operating a device having a segmented wheel 03 for printing hollow bodies 01 with at least one segment 32 of the segment wheel 03 having a plurality of segments 32 one behind the other on its circumference, a printing blanket 33 is arranged in each case, at least one printing blanket 33 arranged on one of the segments 32 rolling on the hollow body 01 to be printed upon rotation of the segment wheel 03, one being assigned to the Segment wheel 03 provided device for automatically changing printing blankets 33 according to a command given to its control unit automatically removes the printing blanket 33 to be arranged on the relevant segment 32 of the segmented wheel 03 from a storage device 42 and transports it to the relevant segment 32 of the segmented wheel 03.
- the device for automatically changing printing blankets 33 has a device 44 for horizontal transport of the printing blankets 33 with a movable carriage 46, the printing blankets 33 to be transported being transported lying on the carriage 46.
- a printing blanket 33 lying on the carriage 46 is preferably arranged in the correct position with regard to an assembly position on one of the segments 32 of the segment wheel 03.
- a plurality of printing blankets 33 are stored in the storage device 42, the printing blankets 33 each being stored individually one after the other on the carriage 46 of the device 44 for the horizontal transport of the printing blankets 33 and being transported one after the other to one of the segments 32 of the segmented wheel 03.
- a printing blanket 33 to be arranged on one of the segments 32 of the segmented wheel 03 is arranged on the relevant segment 32 in particular by a form fit produced between the relevant segment 32 and the printing blanket 33 when this segmented wheel 03 rotates.
- a arranged on one of the segments 32 of the segment wheel 03 printing blanket 33 is preferably by a z.
- a printing blanket 33 removed from one of the segments 32 of the segmented wheel 03 is likewise preferably transported away from the relevant segmented wheel 03 with the device 44 for the horizontal transport of the printing blankets 33.
- the device 44 for the horizontal transport of the printing blankets 33 alternately transports away a printing blanket 33 removed from one of the segments 32 of the segmented wheel 03 and a new, ie unused, printing blanket 33 is transported from the storage device 42 to a free segment 32 of the segmented wheel 03, ie to a segment 32 on which no printing blanket 33 is currently arranged.
- a switching element 49 z. B. monitors whether a blanket 33 to be removed or removed from the storage device 42 has actually and / or correctly positioned on the carriage 46 of the device 44 for the horizontal transport.
- Fig. 14 shows in a perspective view again the segmented wheel 03 of the device for printing hollow bodies 01, wherein on the circumference of this segmented wheel 03 one behind the other, z. B. twelve segments 32 for receiving one blanket 33 each are arranged.
- This segment wheel 03 is preferably made of a casting material, for. B. made of cast iron, and has a mass z. B. of more than 500 kg, in particular of about 1,000 kg or more.
- the segment wheel 03 has an outer diameter in the range of, for. B. 1,400 mm to 1,600 mm.
- the segment wheel 03 is with its shaft 53 in a frame 66 of this device for printing hollow bodies 01 preferably at both ends z. B.
- This drive which rotatively drives the segmented wheel 03, is designed as an electric motor 58 with a stator 61 and a rotor 62 having a hollow shaft 54, the hollow shaft 54 being or at least being able to be arranged coaxially with the shaft 53 of the segmented wheel 03.
- the shaft 53 of the segment wheel 03 protrudes into the installation space of the motor 58 and the shaft 53 of the segment wheel 03 and the rotor 62 of the motor 58 are rigidly connected to one another.
- the segment gear 03 is preferably on both sides z. B.
- the motor 58 provided for the rotary drive of the segmented wheel 03 is preferably designed as a multi-pole, electrical direct drive with a number of poles, e.g. B. greater than twenty and / or designed as a permanent magnet brushless DC motor and exemplified in the Fig. 15 shown in perspective.
- This motor 58 has z. B. a cooling device or is at least connected to such, wherein the cooling device is designed as a liquid cooling.
- Fig. 15 shows two connections formed on the housing 59 of the motor 58 for this liquid cooling, namely one connection for the coolant inflow 56 and another connection for the coolant outflow 57.
- this motor 58 is designed as a torque motor.
- a preferably digital control unit controlling or regulating it is provided for this motor 58, whereby the control unit, by positioning the shaft 53 of the segmented wheel 03 in the stator of the motor 58, sets a position on the circumference of this segmented wheel 03 relative to a position on the outer surface of one to be printed Hollow body 01 is preferably set or at least adjustable with a positioning accuracy of less than 0.1 mm.
- z. B. at the end of the shaft 53 opposite the motor 58, a rotary encoder 64 is provided, the rotary encoder 64 having a high angular resolution of z. B.
- the motor 58 and / or the rotary encoder are preferably each connected to the control unit controlling or regulating the motor 58 via a control bus.
- the aforementioned embodiment of the rotary drive of the segmented wheel 03 has the advantage that this drive is designed to be decentralized as well as gearless and clutchless. This drive of the segment wheel 03 is therefore compact and free of play.
- a position on the circumference of this segmented wheel 03 relative to a position on the outer surface of a hollow body 01 to be printed can easily be set with a positioning accuracy of less than 0.1 mm, which has a very advantageous effect on the achievable print quality .
- the double-row bearing of the segment wheel 03 a very good concentricity of this segment wheel 03, whereby a uniform color transfer from the respective inking units 06 on the respective printing blankets 33 arranged on the circumference of the segmented wheel 03 is ensured.
- the proposed drive for the segment gear 03 also has the advantage of being low-noise and low-maintenance. Overall, this results in a very efficient drive for the segment gear 03.
- Fig. 19 shows again that i. V. m. the Fig. 14 and 16 segment wheel 03 described, but here in a particularly advantageous embodiment.
- the segment wheel 03 mounted in the frame 66 of the device for printing hollow bodies during the printing process has a segment wheel 03 preferably made of a metallic material, e.g. B. from a welded construction or made of cast iron base body 76, with several, z. B. twelve segments 32 along the circumference of the base body 76 are each arranged at a joint 77, in particular at a distance from one another or at least can be arranged.
- the segment wheel 03 is therefore not designed in one piece, with segments 32 already molded on, but these segments 32 each form a separate machine element that can be separated from the base body 76 and are arranged on the base body 76 such that they can be changed. Each of these segments 32 is - as before in the same way - suitable for receiving a printing blanket 33 in the manner already described.
- segment wheel 03 interchangeable segments 32 is that, for. B. when switching the machine arrangement to a production of hollow bodies 01 other format, z. B. on cans with a shorter or longer can height and / or a different can diameter compared to the current production, an adjustment in the format of the printing blankets 33 required for printing is easier and faster.
- a machine arrangement with a segmented wheel 03 with already molded segments 32 when the production is switched to hollow bodies 01 of a different format, the entire segmented wheel 03 has to be replaced, which in view of the usual size with an outer diameter in the range of z. B. 1,400 mm to 1,600 mm and / or the usual mass of the segment wheel 03 of z. B. more than 500 kg, in particular more than 1,000 kg mean considerable effort and unacceptably long set-up times.
- a segment wheel 03 In order to generate a print image of high print quality on hollow bodies 01 in the printing process, a segment wheel 03 has to meet very high requirements for its concentricity, which means that such a segment wheel 03 is highly accurate, ie. H. is to be processed with low permissible manufacturing tolerances. In the case of a segmented wheel 03 with already molded segments 32, this is due to the relatively large outer diameter in the range of z. B. 1,400 mm to 1,600 mm very complex and expensive.
- the individual, interchangeable segments 32 are preferably designed to be finished ( Fig. 20 ).
- the finished segments 32 only have to correspond with a high degree of accuracy to the desired outer diameter of the relevant segment wheel 03 in terms of their respective surface curvature.
- the remaining geometries play a subordinate role in terms of tolerance.
- the manufacturing tolerances of the external geometry are of subordinate importance. That in the Fig. 20 individual segment 32 shown as an example has z. B. at least one holding magnet 81 in order, after the assembly of this segment 32 on the base body 76 of the segment wheel 03, to hold a printing blanket 33 having a magnetizable metal carrier on the circumference of this segment wheel 03, in particular in the correct position.
- the necessary high accuracy of the respective running surface of the printing blankets 33 in terms of concentricity and radius is achieved by a z. B. with the help of a rider gauge 79 that can be moved in particular along the circumference of the segmented wheel 03 ( Fig. 14 ) achieved alignment process of the segments 32 with the base body 76 of the segment wheel 03 arranged in the machine arrangement and z. B. fixed by potting a compensation gap. Because at the relevant joint 77 between the respective segment 32 and the base body 76, a compensation gap is formed with a joint lining arranged in the relevant compensation gap, the joint lining preferably as a z. B. low-viscosity casting material or is designed as a filler.
- the respective segments 32 are thus in each case cast with a particularly precise fit at their joint 77 with the base body 76 of the segment wheel 03.
- the compensation gap has a gap width of z. B. at least 1 mm up to z. B. 5 mm.
- the segments 32 are each z. B. fixed to the base body 76 by at least one connecting element 78 and / or releasably connected to the base body 76.
- the at least one connecting element 78 connecting the respective segment 32 to the base body 76 of the segment wheel 03 is z. B. as a cylinder screw or designed as a taper pin.
- a joint lining is used to adjust and fit machine parts with the highest accuracy requirements. It allows adjustment in the ⁇ m range without complex mechanical preparation and rework. It has a high static compressive strength of z. B. 100 N / mm 2 and / or a contact ratio of z. B. 100%.
- a joint covering has a very high adhesive force and hardens without any technically relevant shrinkage. Such a joint lining is z. B. from the company. SKC Gleittechnik GmbH in D-96469 Rödental.
- a so-called "on-the-fly change of production” can be carried out with the device described above for printing hollow bodies 01, ie. H. a change is made from a first printing process to a second printing process without interrupting production. If it is not necessary to change the printing blanket, production is switched over while the segment wheel 03 continues, i. H. continuously rotated and continuously printed hollow body 01. In a machine arrangement in which a few thousand pieces of this hollow body 01 per minute, e.g. If, for example, between 1,500 and 3,000 pieces are produced per minute, an uninterrupted change of production means an enormous increase in efficiency. And even if at least one of the printing blankets has to be changed with the production change, the set-up times for the decorator can be shortened considerably with the following process.
- this device having a segment wheel 03 rotating about its axis 34 with several printing blankets 33 arranged one behind the other on its circumference and preferably in a star-shaped association with this segment wheel 03, ie several on its periphery each has a plate cylinder 04 carrying a printing forme or a printing block 68, each of these plate cylinders 04 for coloring its A specific printing ink is supplied to the printing forme or its printing cliché 68 by means of an inking unit 06, preferably designed as a short inking unit, with an in particular two-roller roller train.
- a selected number of plate cylinders 04 are attached to the segmented wheel 03, e.g. B. turned radially or turned off from this segment gear 03.
- a first printing process a first subset of each of the plate cylinders 04, each carrying a colored printing form or a colored printing cliché 68, which are positioned on the rotating segment wheel 03, transfers printing ink to several of the printing blankets 33 arranged on this segment wheel 03.
- the plate cylinder 04 set against the segmented wheel 03 is parked by this rotating segmented wheel 03.
- a second subset of plate cylinders 04 each carrying an inked printing forme or an inked printing cliché 68 is now placed on this segmented wheel 03, in particular radially, so that these plate cylinders 04 each have printing ink to carry out a second printing process different from the first printing process several of the printing blankets 33 arranged on this segment wheel 03 are transferred.
- the printing blankets 33 in turn transfer the respective printing ink to the rotating segment wheel 03 z. B. by means of a mandrel wheel 02 brought to the printing hollow body 01.
- those inking units 06 which each supplied printing ink to the first subset of plate cylinders 04 in the first printing process are turned off by this first subset of plate cylinders 04.
- those inking units 06 which each supply printing ink to the second subset of plate cylinders 04 in the second printing process are adjusted to this second subset of plate cylinders 04.
- the segment gear 03 is - as described above - preferably independent, d. H. at least independently of the plate cylinders 04 and / or the inking units 06, of a z. B. designed as a direct drive motor 58 rotatively driven.
- the plate cylinders 04 which are respectively adjusted or at least adjustable to the segmented wheel 03 are also each independently, i. H. at least independently of the segment gear 03, driven in rotation by a motor 11.
- the inking units 06 each have exactly one inking roller 07 and, for example, one of the plate cylinders 04 concerned or that can be adjusted or that can be switched off or switched off by this plate cylinder 04. B.
- the respective inking roller 07 z. B. each arranged in the same inking unit 06 anilox roller 08 are driven rotatively by friction.
- the mentioned separate drives 11; 12; 58, d. H. the motor 58 independently rotating the segment wheel 03 and / or the respective motor 11 independently rotating the respective plate cylinder 04 and / or the motor 12 independently rotating the respective ink application roller 07 and / or the anilox roller 08 is or are preferably each of a control unit independently and preferably individually controlled or regulated.
- the respective adjustment and / or adjustment of the relevant plate cylinder 04 and / or the relevant inking units 06 is preferably controlled by the control unit independently of one another, depending on the printing process to be carried out.
- the respective printing forme or the respective printing cliché 68 is printed on at least one plate cylinder 04 that is not involved in the ongoing printing process, ie is currently not engaged with the rotating segmented wheel 03, using a z. B. previously described disk changer 14 is preferably changed automatically.
- the Segmented wheel 03 is brought to a standstill and at least one printing blanket 33 arranged on this segmented wheel 03 is changed automatically, preferably using a device for automatically changing the printing blankets 33.
- a method for printing hollow bodies 01 can be carried out, in which printing ink is transferred to each of the hollow bodies 01 by one of the printing blankets 33 arranged one behind the other on the circumference of a segmented wheel 03 rotating about its axis 34 , in which at least two plate cylinders 04 are used, arranged one after the other in the direction of rotation of the segmented wheel 03, each carrying a printing plate 68, in which a first printing ink applied to the printing plate 68 by a first inking unit 06 on a first printing blanket 33 of the am
- the circumference of the segmented wheel 03 is transferred to the printing blankets 33 and from there is split back onto the printing block 68 of a second plate cylinder 04 arranged downstream of the first plate cylinder 04 in the direction of rotation of the segmented wheel 03, ie, transferred by splitting back.
- a second printing ink different from the first printing ink is applied to its printing block 68.
- the first printing ink applied by split-back and the second by the second inking unit 06 on the printing block 68 of the second plate cylinder 04 are then jointly transferred to a second printing blanket 33 of the printing blankets 33 arranged on the circumference of the segmented wheel 03.
- the different printing inks applied to the printing block 68 of the second plate cylinder 04 are applied to this printing block 68 in different adjacent areas, the printing inks applied to the printing block 68 of the second plate cylinder 04 mixing in their respective boundary area 71.
- the printing inks 69 applied to the printing cliché 68 of the second plate cylinder 04 are then transferred to the second printing blanket 33, with the image of the mixing that took place in their respective border area 71.
- an inking unit 06 with a roller train consisting of a maximum of five rollers or, in the preferred embodiment, an inking unit 06 with two rollers 07; 08 existing roller train is used, the respective plate cylinder 04 only being assigned a single inking roller 07.
- an inking roller 07 is used, the circumferential length of which corresponds to the circumferential length of the respective plate cylinder 04.
- the outer diameter d04 of the plate cylinder 04 carrying the relevant printing block 68 and the outer diameter d07 of the inking roller 07 positioned on this plate cylinder 04 are equal in terms of amount.
- a fully encased inking roller 07 is used.
- a fully encased inking roller 07 or preferably a coated inking roller 07 with incorporated on its outer surface depressions are used, these depressions in particular depending on the print image to be printed and / or z. B. are formed in the axial direction and / or in the circumferential direction.
- printing blankets 33 are used with incorporated depressions.
- the depressions in the outer surface of the inking roller 07 used to color the second plate cylinder 04 and / or in the blankets 33 used to print the hollow bodies 01 are each z. B. introduced by mechanical engraving or by milling or by lasers.
- the first inking unit 06 inks at least one flat first print image area formed on the printing block 68 of the first plate cylinder 04
- the second inking unit 06 inks at least one flat second area formed on the printing block 68 of the second plate cylinder 04 Print image location. Due to its position and size, the second print image area formed on the printing block 68 of the second plate cylinder 04 includes the area into which the respective area of the at least one first print image area formed on the printing block 68 of the first plate cylinder 04 is transferred or split back.
- the inking roller 07 of the second inking unit 06 which inks the printing cliché 68 of the second plate cylinder 04 has a recess in its outer surface in the manner described above on the surface corresponding to the at least one first print image point of the printing cliché 68 arranged on the first plate cylinder 04.
- the respective circumferential speeds of both the first plate cylinder 04 and of the inking the printing cliché 68 arranged on this first plate cylinder 04 as well as the respective circumferential speeds of the second plate cylinder 04 and of the inking the printing cliché 68 arranged on this second plate cylinder 04 inking roller 07 are z. B. set synchronously with one another by a control unit, in particular with regard to a common reference point.
- the plate cylinder 04 and the associated inking roller 07 are therefore each in synchronism. In order to produce the intended color gradients, this synchronization must be given for all printing units 73 and inking units 06 involved in the production at any point in time of the relevant production process, that is to say also immediately after a machine stop.
- the respective circumferential speeds of the hollow bodies 01 to be printed and of the segment wheel 03 are synchronized with one another.
- color gradients so-called iris printing effects
- iris printing effects are produced when executing a letterpress process, with which the depth of design that can be achieved in the print can be increased and / or security features can also be produced.
- color gradients completely new types of decorations can be produced on hollow bodies 01 in their axial direction and / or circumferential direction. This works with the method described even using short inking units, including those with a z. B. only two-roller compactor.
- Fig. 17 shows in three phases a production sequence for producing a color gradient on a hollow body 01, with at least two inking units 06 each with an inking roller 07 being used in this device for printing hollow bodies 01, the respective circumferential length of which corresponds to the extended length of the inking unit 06 used in the same inking unit Printing blocks 68 corresponds.
- a first production phase ( Figure 17a ) is in a first inking unit 06 with a first z. B. fully coated inking roller 07, a first printing ink 69 is applied to a first printing block 68 arranged on a first plate cylinder 04.
- FIG Figure 17a Paint application shown both in a section and in a plan view.
- a second production phase ( Figure 17b ) is in a second inking unit 06 with a second z.
- an inking roller 07 having a recess in the circumferential direction
- a second printing ink 69 is applied to a second printing block 68 arranged on a second plate cylinder 04.
- FIG. 17b Paint application shown both in a section and in a plan view.
- Figure 17c shows an example of a third production phase in which both the first printing ink 69 and the second printing ink 69 are applied in adjacent areas on the printing block 68 arranged on the second plate cylinder 04, the first printing ink 69 being applied to the second printing block 68 by splitting back has been.
- a joint transfer of the two printing inks 69 to the second printing blanket 33 interacting with the second plate cylinder 04 results in the printing blanket shown in FIG Figure 17c either Color application shown in a section and in a top view, with a color mixture due to split-back and thus a color gradient or an iris printing effect being formed in the respective border area 71 of the two printing inks 69 applied to the second printing blanket 33.
- This color gradient can now be transferred further to the hollow bodies 01 to be printed.
- Another very advantageous method for printing hollow bodies has the process steps that each of the hollow bodies 01 printing ink 69 is transferred from one of the printing blankets 33 arranged one behind the other on the circumference of a segment wheel 03 rotating about its axis 34, with several of them being along the circumference of the Segment wheel 03 arranged printing units 72; 73 each printing ink 69 is applied to the respective printing blanket 33.
- a first subset of the printing units 73 applies printing ink 69 in a contact process, preferably in a letterpress process or also in a screen printing process or in an offset printing process on the printing blanket 33 in question, and a second subset of the printing units 72 carries printing ink 69 in each case a digital printing process on the relevant printing blanket 33 without printing form, with all of the respective printing units 72; 73 printing inks 69 ultimately to be transferred to the relevant hollow body 01 are initially collected on the relevant printing blanket 33 and then transferred together from the relevant printing blanket 33 to the relevant hollow body 01.
- the at least one printing ink 69 is arranged in a digital printing process without printing form on the relevant printing blanket 33 with respect to the zenith of the segmented wheel 03 preferably within an angular range ⁇ of ⁇ 45 ° and thus in an upper area of this segmented wheel 03.
- at least one inkjet print head 74 or a laser is used for the at least one printing ink 69 that applies to the relevant printing blanket 33 in a digital printing process without printing form. It is particularly advantageous if for the at least one printing ink 69 in each case in a digital printing process, without printing form, on the relevant printing blanket 33 applying printing unit 72 each use a double array, that is to say a printing unit 72 in which two printing devices, e.g. B.
- the two inkjet print heads 74 are arranged one behind the other in the circumferential direction of the segment wheel 03.
- a single array or another multiple array can be used.
- at least one of the printing inks cyan and / or magenta and / or yellow and / or black is applied by the at least one printing ink 69 in a digital printing process without printing form to the printing unit 72 applying to the relevant printing blanket 33.
- a specific premixed e.g. B. customer-specific or product-specific special color applied.
- segmented wheel 03 is rotatively driven by a direct drive designed as a motor 58.
- the hollow bodies 01 to be printed are brought to the rotating segmented wheel 03 by a mandrel wheel 02 rotating in the opposite direction to the segmented wheel 03 about an axis 41, the relevant printing blanket 33 with the printing inks 69 collected on it for transferring these printing inks 69 rolls on the relevant hollow body 01.
- at least one printing blanket 33 arranged on the segmented wheel 03 can be automatically changed using a device for automatically changing the printing blankets 33.
- printing units 73 that print in a letterpress printing process each use an inking unit 06 which is employed on the respective plate cylinder 04 and has a roller train consisting of a maximum of five rollers, ie preferably a short inking unit.
- the first subset of z. B. printing units 73 that print in a letterpress printing process each have an inking unit 06 that is set against the respective plate cylinder 04, each with only a single inking roller 07.
- Fig. 18 shows in a schematic representation the device for printing hollow bodies 01 with a multicolored, z. B. four-color each in a digital printing process printing formless printing unit 72 and with several, z. B. six printing units 73 each printing in a letterpress process or in a screen printing process or in an offset printing process.
- the result is a hybrid device for printing hollow bodies 01, with which, in a very advantageous manner, even smaller print runs or batches of hollow bodies 01 that are in the Device for printing hollow bodies 01 entail a frequent change of decor, can be produced efficiently.
Landscapes
- Printing Methods (AREA)
Claims (15)
- Roue segmentée (03) d'un dispositif d'impression de corps creux (01), avec plusieurs segments (32) conçus sur sa périphérie, dans laquelle un blanchet d'impression (33) respectif pour imprimer les corps creux (01) est agencé contre au moins un segment (32), dans laquelle la roue segmentée (03) présente un corps de base (76), dans laquelle le corps de base (76) est conçu dans un matériau métallique, dans laquelle les segments (32) sont agencés le long de la périphérie du corps de base (76) respectivement contre un point de jonction (77), dans laquelle les segments (32) sont reliés respectivement de façon amovible au corps de base (76), caractérisée en ce que les segments (32) sont échangeables au niveau du corps de base (76) de telle sorte que la roue segmentée (03) soit adaptable à des formats différents des corps creux (01) en fonction de la production respective, dans laquelle les formats différents des corps creux (01) concernent une hauteur de corps creux plus courte ou plus longue par rapport à la production en cours et/ou un autre diamètre de corps creux.
- Roue segmentée (03) selon la revendication 1, caractérisée en ce qu'une fente de compensation avec une garniture de jointure de séparation est conçue contre le point de jonction (77) concerné entre le segment (32) respectif et le corps de base (76), dans laquelle la garniture de jointure de séparation est conçue sous forme de matériau de moulage.
- Roue segmentée (03) selon la revendication 2, caractérisée en ce que la garniture de jointure de séparation est conçue sous forme de matériau de moulage durcissant sans contraction techniquement pertinente.
- Roue segmentée (03) selon la revendication 1 ou 2 ou 3, caractérisée en ce qu'au niveau de leur point de jonction (77) les segments (32) respectifs sont coulés respectivement de façon ajustée contre le corps de base (76) de la roue segmentée (03) et/ou en ce que la fente de compensation au niveau du point de jonction (77) concerné présente une largeur de fente dans la plage d'au moins 1 mm et jusqu'à 5 mm.
- Roue segmentée (03) selon la revendication 1 ou 2 ou 3 ou 4, caractérisée en ce que les segments (32) sont fixés contre le corps de base (76) respectivement par au moins un élément de liaison (78).
- Roue segmentée (03) selon la revendication 1 ou 2 ou 3 ou 4 ou 5, caractérisée en ce que la roue segmentée (03) présente un diamètre extérieur dans la plage de 1 400 mm à 1 600 mm et une masse supérieure à 500 kg.
- Dispositif selon la revendication 1 ou 2 ou 3 ou 4 ou 5 ou 6, caractérisée en ce que les segments (32) sont conçus respectivement avec une finition, dans laquelle les segments (32) avec finition correspondent dans leur courbure de surface respective au diamètre extérieur souhaité de la roue segmentée (03) concernée.
- Roue segmentée (03) selon la revendication 1 ou 2 ou 3 ou 4 ou 5 ou 6 ou 7, caractérisée en ce que le corps de base (76) de la roue segmentée (03) est conçu en fonte ou sous forme de construction soudée.
- Roue segmentée (03) selon la revendication 1 ou 2 ou 3 ou 4 ou 5 ou 6 ou 7 ou 8, caractérisée en ce que le segment (32) concerné ou chacun des segments (32) présente respectivement au moins un aimant de maintien pour maintenir respectivement un blanchet d'impression (33) qui présente un support métallique aimantable.
- Roue segmentée (03) selon la revendication 1 ou 2 ou 3 ou 4 ou 5 ou 6 ou 7 ou 8 ou 9, caractérisée en ce que la roue segmentée (03) présente sur sa périphérie huit à douze segments (32) qui se succèdent dans une distribution équidistante.
- Dispositif d'impression de corps creux (01), avec une roue segmentée (03) qui présente plusieurs segments (32) sur sa périphérie selon au moins l'une des revendications 1 à 10, caractérisé en ce que la roue segmentée (03) est montée avec son arbre (53) dans un bâti (66) de ce dispositif.
- Dispositif selon la revendication 11, caractérisé en ce que la roue segmentée (03) est entraînée en rotation par un entraînement direct relié à l'arbre (53).
- Dispositif selon la revendication 12, caractérisé en ce que l'entraînement direct est conçu sous forme de moteur à courant continu sans balai à excitation permanente ou de moteur-couple (58).
- Dispositif selon la revendication 11 ou 12 ou 13, caractérisé en ce qu'au niveau des deux extrémités, l'arbre (53) de la roue segmentée (03) est monté dans le bâti (66) respectivement dans des paliers à rouleau (63) à double rangée.
- Dispositif selon la revendication 11 ou 12 ou 13 ou 14, caractérisé en ce que des deux côtés la roue segmentée (03) est reliée rigidement à son arbre (53) au moyen d'éléments de serrage (67) et ainsi fixée sur l'arbre (53).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102017206392.0A DE102017206392A1 (de) | 2017-04-13 | 2017-04-13 | Segmentrad einer Vorrichtung zum Bedrucken von Hohlkörpern |
PCT/EP2018/052510 WO2018188830A1 (fr) | 2017-04-13 | 2018-02-01 | Roue segmentée d'un dispositif d'impression de corps creux |
Publications (2)
Publication Number | Publication Date |
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EP3609707A1 EP3609707A1 (fr) | 2020-02-19 |
EP3609707B1 true EP3609707B1 (fr) | 2020-12-16 |
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EP18703735.3A Active EP3609707B1 (fr) | 2017-04-13 | 2018-02-01 | Roue segmentée d'un dispositif d'impression de corps creux |
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US (1) | US10786984B2 (fr) |
EP (1) | EP3609707B1 (fr) |
CN (1) | CN110475667B (fr) |
DE (1) | DE102017206392A1 (fr) |
WO (1) | WO2018188830A1 (fr) |
Family Cites Families (29)
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US516620A (en) | 1894-03-13 | Ink-distributer | ||
US2793588A (en) * | 1953-10-23 | 1957-05-28 | John Waldron Corp | Printing blanket mounting and tensioning apparatus |
DE1225201B (de) | 1962-01-17 | 1966-09-22 | Winkler Fallert & Co Maschf | Zum Bedrucken von Hohlkoerpern oder Baendern bestimmter Druckzylinder |
US3828668A (en) * | 1972-10-06 | 1974-08-13 | American Can Co | Identification system |
CH624526B (de) | 1977-12-19 | Polytype Ag | Verfahren und vorrichtung zum aufbringen von fliessfaehigen auftragsmedien auf zweidimensionale bahn- bzw. bogenfoermige substrate oder dreidimensionale formkoerper mit gewoelbten oberflaechen. | |
DE3232780C2 (de) | 1981-10-31 | 1986-02-06 | Heidelberger Druckmaschinen Ag, 6900 Heidelberg | Farbwerk für Offsetdruckmaschinen |
JPS58118256A (ja) * | 1981-12-28 | 1983-07-14 | Dainippon Printing Co Ltd | オフセツト印刷機のブランケツト胴 |
JPS63207880A (ja) * | 1987-02-24 | 1988-08-29 | Toshiba Corp | 組立て部品の製造方法 |
US5181471A (en) * | 1988-01-11 | 1993-01-26 | Ian Sillars | Combined offset and flexographic printing and decorating system |
DE8912194U1 (de) | 1989-10-13 | 1989-11-23 | MAN Roland Druckmaschinen AG, 6050 Offenbach | Farbwerk |
US5233922A (en) * | 1991-01-10 | 1993-08-10 | Belgium Tool And Die Company | Ink fountain for a can coater |
DE4300683C2 (de) | 1993-01-13 | 1998-08-13 | Koenig & Bauer Albert Ag | Farbwerk für eine Rotationsdruckmaschine |
DE19624440A1 (de) | 1996-06-19 | 1998-01-02 | Roland Man Druckmasch | Einrichtung zum Füllen von Vertiefungen eines Zylinders, Rakeleinrichtungen hierfür sowie Verfahren zu deren Wechsel |
US5970865A (en) * | 1997-02-26 | 1999-10-26 | Mitsubishi Materials Corporation | Apparatus and method for printing multi-color images onto cylindrical body |
US6167805B1 (en) | 1999-02-10 | 2001-01-02 | Sequa Corporation | Mandrel carrier for high speed can decorators |
DE10010099A1 (de) | 2000-03-02 | 2001-09-20 | Hinterkopf Gmbh | Transfervorrichtung für in einer Druckmaschine zu bedruckende oder bereits bedruckte Hohlkörper |
DE10160734B4 (de) | 2001-01-11 | 2012-06-21 | Heidelberger Druckmaschinen Ag | Druckmaschine |
DE10226500B4 (de) * | 2002-06-14 | 2010-04-22 | Ball Packaging Europe Holding Gmbh & Co. Kg | Vorrichtung zur Oberflächenbearbeitung von Teilen |
US6769357B1 (en) | 2003-06-05 | 2004-08-03 | Sequa Can Machinery, Inc. | Digital can decorating apparatus |
DE102006004568A1 (de) | 2006-02-01 | 2007-08-02 | Koenig & Bauer Aktiengesellschaft | Kurzfarbwerk für eine Druckmaschine |
DE102006048286B4 (de) | 2006-10-11 | 2011-07-07 | manroland AG, 63075 | Verfahren und Antrieb zum Antreiben eines Druckwerks mit einem Kurzfarbwerk in einer Verarbeitungsmaschine |
DE102007052761B4 (de) | 2006-11-20 | 2018-02-22 | Heidelberger Druckmaschinen Ag | Anilox-Druckwerk |
US8596624B2 (en) | 2010-06-09 | 2013-12-03 | Stolle Machinery Company, Llc | Self-aligning pivotable mandrel assembly |
US9475276B2 (en) | 2011-04-27 | 2016-10-25 | Stolle Machinery Company, Llc | Can decorator machine, ink station assembly therefor, and can decorating method employing same |
EP2821434A1 (fr) * | 2013-07-05 | 2015-01-07 | Basell Poliolefine Italia S.r.l. | Compositions de polypropylène contenant des charges de fibres de verre |
US9895876B2 (en) * | 2014-07-16 | 2018-02-20 | Kba-Metalprint Gmbh | Apparatus comprising a plurality of printing units for printing hollow elements |
PL3169521T3 (pl) * | 2014-07-16 | 2018-07-31 | Kba-Metalprint Gmbh | Urządzenie do zadrukowywania pustych korpusów |
DE102015215227A1 (de) * | 2015-08-10 | 2017-02-16 | Krones Ag | Behälterbehandlungsmaschine und Verfahren zur Bedruckung von Behältern |
DE102016201137B4 (de) * | 2016-01-27 | 2018-12-27 | Kba-Metalprint Gmbh | Vorrichtung zum Bedrucken von Hohlkörpern |
-
2017
- 2017-04-13 DE DE102017206392.0A patent/DE102017206392A1/de not_active Withdrawn
-
2018
- 2018-02-01 US US16/474,123 patent/US10786984B2/en active Active
- 2018-02-01 EP EP18703735.3A patent/EP3609707B1/fr active Active
- 2018-02-01 CN CN201880006501.7A patent/CN110475667B/zh active Active
- 2018-02-01 WO PCT/EP2018/052510 patent/WO2018188830A1/fr unknown
Non-Patent Citations (1)
Title |
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None * |
Also Published As
Publication number | Publication date |
---|---|
CN110475667A (zh) | 2019-11-19 |
US10786984B2 (en) | 2020-09-29 |
CN110475667B (zh) | 2020-11-20 |
EP3609707A1 (fr) | 2020-02-19 |
DE102017206392A1 (de) | 2018-10-18 |
WO2018188830A1 (fr) | 2018-10-18 |
US20190381787A1 (en) | 2019-12-19 |
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