EP3450179A1 - Machine et procédé d'impression directe destinés à l'impression de récipients par impression directe - Google Patents

Machine et procédé d'impression directe destinés à l'impression de récipients par impression directe Download PDF

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Publication number
EP3450179A1
EP3450179A1 EP18182166.1A EP18182166A EP3450179A1 EP 3450179 A1 EP3450179 A1 EP 3450179A1 EP 18182166 A EP18182166 A EP 18182166A EP 3450179 A1 EP3450179 A1 EP 3450179A1
Authority
EP
European Patent Office
Prior art keywords
direct
printing
print head
ink
direct print
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.)
Granted
Application number
EP18182166.1A
Other languages
German (de)
English (en)
Other versions
EP3450179B1 (fr
Inventor
Johannes REGENSBURGER
Eduard Handschuh
Martin Wagner
Viktor Gette
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Krones AG
Original Assignee
Krones AG
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Filing date
Publication date
Application filed by Krones AG filed Critical Krones AG
Publication of EP3450179A1 publication Critical patent/EP3450179A1/fr
Application granted granted Critical
Publication of EP3450179B1 publication Critical patent/EP3450179B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/005Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
    • B41J2/01Ink jet
    • B41J2/17Ink jet characterised by ink handling
    • B41J2/175Ink supply systems ; Circuit parts therefor
    • B41J2/17596Ink pumps, ink valves
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/005Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
    • B41J2/01Ink jet
    • B41J2/17Ink jet characterised by ink handling
    • B41J2/175Ink supply systems ; Circuit parts therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/005Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
    • B41J2/01Ink jet
    • B41J2/17Ink jet characterised by ink handling
    • B41J2/18Ink recirculation systems
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J3/00Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
    • B41J3/407Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for marking on special material
    • B41J3/4073Printing on three-dimensional objects not being in sheet or web form, e.g. spherical or cubic objects

Definitions

  • the invention relates to a direct printing machine and a direct printing method for printing on containers with a direct printing according to the features of the preamble of claim 1 and 13, respectively.
  • containers such as beverage containers
  • a label in a labeling machine to mark and / or advertise the container contents.
  • Such direct printing machines usually comprise at least one stationary direct printing station with a direct print head and a feed dog for transporting the containers past the at least one direct printing station.
  • the containers With the transporter, the containers are received, for example, in container receptacles and transported to the at least one stationary direct printing station. There, the containers are rotated by means of container receptacles and thereby printed with the direct print head from a plurality of printing nozzles with printing ink. The print nozzles are controlled so that the ink drops delivered to the container produce the desired print image. If a multicolored direct printing is desired, the containers are transported past several direct printing stations and printed there sequentially with printing inks of different colors.
  • such direct printing machines include an ink supply system with a lead for the printing ink to produce an ink flow from a storage tank to the direct print head.
  • the ink supply system optionally includes a return for the printing ink to produce an ink flow from the direct print head back to the storage tank.
  • the DE 10 2013 217 679 A1 discloses a printing machine for ink jet printing on containers, comprising at least one stationary printing unit for printing on the containers and a printing ink filling station associated with the printing unit.
  • the DE 10 2009 020 702 A1 discloses a printing system for printing on bottles, with a along a transport path for the container movable, working on the inkjet principle printhead for printing the respective arranged at a printing position container, as well as with a supply system of the printhead with ink.
  • the supply system As the printhead moves with the bottle to be imprinted, it is proposed to divide the supply system into a static part and a moving part, the moving part having, in addition to the printhead, an auxiliary tank for the ink in order to ensure a high print quality.
  • the object of the present invention is therefore to provide for a direct printing machine with at least one stationary direct printing station and a conveyor an ink supply system in which the production of a closed ink flow is simplified and an automated flushing of the ink supply system or the direct print head is possible.
  • the invention provides a direct printing machine with the features of claim 1 ready.
  • Advantageous embodiments of the invention are mentioned in the subclaims.
  • the ink supply system comprises the at least one header tank arranged in the supply and / or return, a predefined meniscus pressure of the printing ink on the direct print head can be set precisely and the circulation can be controlled such that the print result has a particularly high quality.
  • the flow of the printing ink can be selectively switched through the direct print head or via the bypass line. This makes it possible to rinse the ink supply system during maintenance or commissioning automatically with printing ink and to remove bubbles or foreign matter.
  • the direct print head can be cleaned particularly well, independently of further direct print heads connected to the ink supply system. For example, this allows the air and / or air bubbles are removed from the printing system.
  • the direct printing machine can be arranged in a beverage processing plant.
  • the direct printing machine can be arranged downstream of a filling plant for filling a product into the containers and / or a capper for closing the containers with closures.
  • the direct printing machine can also be connected upstream of the filling process and / or be connected directly downstream of a container production process. Detached from this, it can also be a direct printing press, which is not assigned to any system, but operates in so-called stand-alone mode.
  • the containers may be intended to contain drinks, toiletries, pastes, chemical, biological and / or pharmaceutical products.
  • the containers may be provided for any flowable or fillable media.
  • the containers may be made of plastic, glass and / or metal, but also hybrid containers with material mixtures are conceivable.
  • the containers may be bottles, cans, beverage containers and / or tubes. It is conceivable that the containers are shaped containers which deviate from rotational symmetry.
  • the feed dog may comprise a carousel and / or container receptacles arranged in a revolving manner with it.
  • the containers can be transported in a predetermined pattern and rotated relative to the direct printing station during printing.
  • the feed dog can be designed to transport the containers intermittently. In this case, the containers are each briefly stopped during printing with respect to the at least one stationary direct printing station and subsequently transported on. It is also conceivable that the feed dog is designed to transport the containers continuously, preferably if the containers are forming containers.
  • the at least one stationary direct printing station may comprise at least one further direct printing head, each with a further valve terminal and each with at least one further header tank.
  • a distributor unit can be arranged downstream of the storage tank in order to distribute the printing ink to the direct print head and to the at least one further direct print head, preferably via the header tank and the at least one further header tank and / or via the valve terminal and the at least one further valve terminal.
  • the direct print heads from the same storage tank can be supplied with printing ink of one color.
  • the stationary direct printing station may also comprise a plurality of the above-described direct print head or the direct print head according to claim 1, to simultaneously print the containers with a plurality of direct print heads, wherein the ink supply system is designed to supply the Sparuckkmü from the storage tank, the ink supply system Distributor unit and starting therefrom for the direct-return heads each comprises a flow and a respective return for the printing ink to produce an ink flow from the storage tank to the direct print heads and back.
  • the ink supply system can supply a plurality of direct print heads. The use of cost-intensive ink pumps is thus reduced to a minimum.
  • the pressure range on the containers can be increased.
  • the ink supply system per direct print head each comprise at least one arranged in the supply and / or in the return headertank to adjust a meniscus pressure of the printing ink to the respective direct print head out, and arranged between each of the head tank and the direct print head valve terminal in the flow and in the return is to interrupt the flow of ink through the respective direct print head and make him in an associated bypass line parallel to the respective direct print head.
  • the valve islands can each be individually switchable. As a result, the supply strands or the direct print heads can be flushed individually.
  • header tank may optionally include a heater, whereby a better viscosity or a better ink temperature control can be done.
  • the direct print head can operate with a digital or ink jet printing process in which the ink is delivered to the containers by means of a plurality of printing nozzles.
  • “Ink-jet printing process” here may mean that in chambers of a printing nozzle, a sudden increase in pressure via piezoelectric elements or thermocouples is generated such that a small amount of pressure fluid is forced through the pressure nozzle and discharged as a pressure drop to the container.
  • the direct print head may each have a number of print nozzles in a range of 100 to 10,000, in particular in a range of 500 to 5000 nozzles.
  • the pressure nozzles can be arranged in one or more rows of nozzles (for example 1 to 4), which are arranged in particular parallel to the container axis.
  • the direct print head may include a feed port and / or a return port to allow the direct print head to print ink to be fed or discharged. The flow can be connected to the supply connection and the return can be connected to the return connection of the direct print head.
  • the direct printing machine may include a control unit for controlling the direct print head and / or the transporter, preferably arranged on the container receptacles and / or the ink supply system or work together with or be connected thereto.
  • the control unit may comprise a CPU, a screen and / or an input unit.
  • the ink supply system may include an ink pump in the flow and / or the return, respectively, to establish the flow of ink.
  • the ink pump in the flow include a pressure relief valve to prevent pressure spikes in the flow.
  • the ink supply system may include the dispensing unit to distribute the printing ink from the storage tank to the direct print head and one or more additional direct print heads.
  • the distribution unit in the flow and in the return each comprise a plurality of controllable switching valves to control the flow of ink to the respective direct printing heads out.
  • valve terminal may be arranged in the flow and / or in the return. It is also conceivable that the valve terminal is connected to a flow connection and / or return connection of the direct print head.
  • the valve terminal may include a switchable flow valve, a switchable return valve and a switchable lock-up valve in the bypass line.
  • This can interrupt the flow and return of the direct print head and clear the bypass line to interrupt the flow of ink through the direct print head, making it parallel to the direct print head in the bypass line.
  • a back pressure in the flow and / or in the return can be established for the purge.
  • the flow and / or the return of the direct print head are released again by means of the valve terminal and the bypass line is interrupted so that the built-up dynamic pressure on the direct print head leads to increased output of the printing ink.
  • the direct print head is cleaned particularly effectively.
  • the flow valve and the return valve can be arranged in the flow or return.
  • the flow valve can be connected to the flow connection and the return valve to the return connection of the direct print head, in particular directly via ink lines.
  • At least one quick-release coupling may be disposed between the valve terminal and the direct print head to selectively connect the direct print head to the ink supply system or disconnect from it.
  • the direct print head can be changed very easily and quickly.
  • the at least one quick coupling can be arranged in the flow and / or in the return.
  • each one quick coupling can be assigned to the flow connection or the return connection of the direct print head.
  • a flow pressure sensor can be arranged in the flow and, optionally, a return flow pressure sensor can be arranged in the return flow in order to detect the meniscus pressure.
  • the meniscus pressure can be detected by the aforementioned control unit and, as a result, the pressure in the at least one header tank can be regulated. Consequently, the meniscus pressure is set very accurately.
  • the flow pressure sensor and / or the return pressure sensor may be arranged immediately before or after the direct print head in the flow or return. This makes the measurement of the meniscal pressure particularly accurate.
  • the flow pressure sensor and optionally the return pressure sensor can be arranged between the respective quick coupling and the direct print head. As a result, the measurement of the meniscus pressure of pressure drops in the quick couplings remains unaffected and is therefore particularly accurate.
  • valve terminal and the direct print head can be arranged in the flow a flow filter and optionally in the return a return filter for the printing ink to protect the print head from particles in the printing ink.
  • the flow filter and optionally the return filter between the respective quick coupling and the direct print head may be arranged.
  • the direct print head, the valve terminal and the at least one header tank can be designed to be movable with a common adjustment unit.
  • the height between the head tank and the direct print head does not change due to an adjustment, so that the meniscus pressure is kept constant regardless of the travel of the direct print head.
  • the adjustment unit may comprise a linear motor in order to move the direct print head, the valve terminal and the at least one header tank preferably vertically.
  • a replaceable maintenance unit with an ink filter and a degassing which is designed to be interchangeable in particular by means of quick couplings.
  • particles, dissolved gases and gas bubbles in the printing ink are filtered out so that they are not conveyed to the direct print head by means of the ink supply system.
  • quick couplings it is possible to exchange the maintenance unit very quickly. This results in a particularly low cost of maintenance.
  • the at least one header tank may be associated with a pneumatic unit to regulate the pressure of an air mailer in the at least one header tank, the pneumatic unit preferably comprising a piezo proportional valve.
  • the pneumatic unit preferably comprising a piezo proportional valve.
  • the storage tank is connected to the header tank by means of ink lines via the ink pump in the flow, the maintenance unit and / or the distribution unit, so that continuously or intermittently printing ink can be conveyed into the header tank.
  • the pneumatic unit may include a proportional valve to an overpressure supply and / or a proportional valve to a vacuum supply to regulate the pressure of the air cushion in the headertank.
  • the pneumatic unit may comprise a collecting unit for refluxing printing ink from the direct printing head.
  • the pneumatic unit is particularly well protected from the suction of printing ink from the at least one header tank at a negative pressure due to a malfunction.
  • the storage tank may include an agitator to prevent sedimentation of the printing ink.
  • an agitator to prevent sedimentation of the printing ink.
  • the invention provides a direct printing method for printing on containers with a direct printing according to the features of claim 13.
  • the meniscus pressure of the printing ink is adjusted to the direct print head with the at least one arranged in the flow and / or return Headertank, he can be set so that the print result without the use of an additional ink pump has a particularly high quality.
  • the ink flow is interrupted via the direct print head with the valve terminal and is produced in the bypass line parallel to the direct print head, it is possible to automatically rinse the ink supply system with print ink during maintenance or commissioning and remove bubbles or foreign matter.
  • the direct print head can be cleaned particularly well, independently of further direct print heads connected to the ink supply system. For example, this allows the air and / or air bubbles are removed from the printing system.
  • the ink flow can preferably be produced via the direct print head with the valve island arranged between the at least one header tank and the direct print head, and the ink flow in the bypass line can be interrupted parallel to the direct print head for this purpose. This allows printing with the direct print head again in a normal printing operation.
  • the direct printing method may comprise the features described above with respect to the direct printing machine, preferably according to one of claims 1-12, individually or in any desired combinations.
  • the direct printing method can be carried out with the direct printing machine described above, preferably according to one of claims 1-12.
  • FIG. 1 an inventive embodiment of a direct printing machine 1 for printing containers 2 with a direct pressure is shown in an overview. It can be seen that the containers 2, coming for example from a filler and a capper, are fed to the feed dog 3 with the feed star 9.
  • the container receptacles 4 are arranged, which are shown here only schematically.
  • the container receptacles 4 may comprise, for example, a turntable and a centering bell in order to receive the container bottom or the mouth region of the respective container 2.
  • the conveyor 3 is designed, for example, as a carousel and rotates about the axis A, so that the containers 2 are transported past in the container receptacles 4 in the transport direction T at the stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K.
  • the stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K are arranged, each comprising three direct printing heads 50.
  • the stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K each comprise only one, two or more than three direct printing heads 50.
  • the stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K are designed for printing with printing inks of different colors, corresponding to the reference numerals 5 W , 5 C , 5 M , 5 Y , 5 K with white, cyan, magenta, Yellow and black.
  • the printing inks are preferably UV curable to allow a rapid drying process.
  • the feed dog 3 is designed for intermittent transport of the containers 2, wherein the container receivers 4 are respectively stopped at printing positions relative to the stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K.
  • the feed dog 3 is designed for a continuous transport of the containers 2, in particular when printing on shaped containers. In this case, the containers 2 with the container receptacles 4 are pivoted relative to the direct printing heads 50 at an angle such that the pressure interval varies as small as possible.
  • the direct printing heads 50 each have at least one row of nozzles with a multiplicity, for example 1000 printing nozzles, which are controlled by the control unit 8 so that individual ink droplets are dispensed onto the containers 2.
  • the at least one row of nozzles is aligned substantially parallel to the container axes, so that via the rotation by means of the container receptacles 4, a flat direct pressure is generated.
  • the containers 2 After application of the direct pressure, the containers 2 are moved past the curing station 7 by means of the transporter 3 and the printing ink is cured by means of UV light. It is also conceivable that between the individual stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K further pinning stations are arranged to fix the individual colors.
  • the containers 2 are transported from the feed dog 3 to the outlet star 10 and fed to further processing stations, for example a packaging machine.
  • the direct printing machine 1 comprises the ink supply system 6 for supplying the direct print heads 50 with printing ink from a storage tank. It is understood that a corresponding ink supply system is also attached to the stationary direct printing stations 5 W , 5 C , 5 M , 5 K.
  • the ink supply system 6 consists of a directly attached to the direct print heads 50 part 6a and a second part 6b with the storage tank.
  • the two parts 6a, 6b are connected to each other via sections of the flow 6v and the return 6r.
  • control unit 8 with which the direct printing machine 1, in particular the feed dog 3, the container receptacles 4, the stationary direct printing stations 5 W , 5 C , 5 M , 5 Y , 5 K , the ink supply system 6, the evaluation unit 7, the Inlet star 9 and the outlet star 10 are controlled.
  • the ink supply system 6 will be described below with reference to FIGS Figures 2 and 3 illustrated variants:
  • the ink supply system 6 is for supplying the direct print heads 50 from the FIG. 1 formed with printing ink 60a from the storage tank 60.
  • the distributor units 66v and 66r only a single supply line to one of the direct print heads 50 is shown. It is understood that two corresponding supply lines are connected to the distribution units 66v, 66r with the other two direct print heads 50.
  • the distribution units 66v and 66r may also be configured to distribute the printing ink to only two or more than three of the direct printing heads 50.
  • the storage tank 60 in which there is a supply of printing ink 60a, can be seen.
  • the supply is constantly stirred with the agitator 60b to mix in from the return 6r back-flowing printing ink 60a and thus to ensure a high degree of homogeneity. In addition, this generally prevents settling of pigments from the printing ink 60a.
  • the printing ink is removed from the storage tank 60 and conveyed by the flow ink pump 67a to the direct print heads 50 out.
  • Parallel to the flow-in ink pump 67a is a pressure relief valve 67b to intercept pressure spikes.
  • the replaceable maintenance unit 68 with the ink filter 68a and the degassing cartridge 68b which can be separated from the ink flow by means of the quick-action couplings 68d, 68e and exchanged, is located in the supply line 6v. Particles are removed with the ink filter 68a and bubbles and / or dissolved gases are removed from the printing ink 60a with the degassing cartridge 68b.
  • the degassing cartridge 68b is connected to the vacuum supply 70b via the valve 68c.
  • the valve 68c is opened only when the precursor ink pump 67a conveys the printing ink 60a. As a result, the printing ink 60a is uniformly degassed.
  • the printing ink is distributed via the first distributor unit 66v to the direct printing heads 50, which are respectively supplied with printing ink via the connections 66.1v, 66.2v and 66.3v.
  • a switching valve is provided per connection 66.1v, 66.2v, 66.3v in order to control the flow of ink.
  • the printing ink with the supply line 6v is led via the feed header tank 61a, the valve island 62 to the direct print head 50 and from there with the return line 6r via the valve terminal 62, the return header tank 61b to the second distribution unit 66r.
  • the return-flowing printing ink from the individual direct printing heads 50 is reconnected from the connections 66.1r, 66.2r or 66.3r and optionally conveyed back to the storage tank 60 via the return ink pump 71.
  • a switching valve is provided per connection 66.1r, 66.2r, 66.3r in order to control the flow of ink.
  • the feed header tank 61a and the return header tank 61b serve to adjust the meniscus pressure and the circulation of the printing ink 60a through the direct print head 50.
  • a pressure differential is created between the supply header tank 61a and the return header tank 61b, whereby the circulation by the direct print head 50 can be controlled.
  • the meniscus pressure is given by the average of the pressures in the flow and return header tanks 61a, 61b.
  • the direct printing is printed with a particularly high quality.
  • the fill level sensors 61d are arranged on the flow header tank 61a and on the return header tank 61b, via which the fill levels are detected and regulated based thereon.
  • the supply header tank 61a includes a heating unit 61c for bringing the printing ink to the desired temperature for optimum direct printing.
  • valve island 62 is arranged in the flow 6v and in the return 6r.
  • the valve island 62 comprises a switchable flow valve 62a in the flow 6v, a switchable return valve 62b in the return 6r and a switchable bypass valve 62c in the bypass line 62d.
  • a quick coupling 63a, 63b is arranged to selectively connect the direct print head with the ink supply system 6 or decouple.
  • valve terminal 62 and the quick-release couplings 63a, 63b With the valve terminal 62 and the quick-release couplings 63a, 63b, it is possible to first interrupt the flow of ink through the direct print head 50 and to make it parallel to the direct print head 50 in the bypass line 62d. Consequently, therefore, the printing ink no longer flows through the direct print head 50 but via the bypass line 62d. At the same time, the quick couplings 63a, 63b can be released and the direct print head 50 exchanged for maintenance or replacement.
  • bypass valve 62c is closed again and the flow valve 62a and the return valve 62b are reopened to establish the flow of ink through the direct print head 50.
  • valve island 62 It is also possible with the valve island 62 to interrupt the flow of ink to the print head at a standstill of the direct printing machine 1 in order to use the time for purging the ink supply system 6.
  • valve island 62 can be used to interrupt the flow of ink through the direct print head 50 for a pressure build-up by the header tanks 61a, 61b, so that subsequently a particularly effective purging of the print nozzles in the direct print head 50 under increased pressure.
  • the flow pressure sensor 64a and in the return 6r are arranged.
  • the pressure conditions are detected by the direct print head 50, and thus the meniscal pressure can be detected and adjusted particularly accurately.
  • the two pressure sensors 64a, 64b are respectively arranged between the quick-action coupling 63a, 63b and the direct-pressure head 50, pressure losses through the quick-action couplings 63a, 63b can not falsify the measurement result.
  • a return filter 65a may be arranged between the valve island 62 and the direct print head 50 in the feed 6v and a return filter 65b for the printing ink 60a in the return 6r in order to protect the print head 50 from particles in the printing ink 60a. These are arranged, for example, between the respective quick coupling 63a, 63b and the direct print head 50.
  • the portion 6a of the ink supply system 6 attached to the direct print head 50 comprises the two header tanks 61a, 61b, the valve island 62, the quick connect couplings 63a, 63b, the feedforward filter 65a, the return filter 65b, the feed pressure sensor 64a, and the return pressure sensor 64b , and that the part 6a is designed to be movable together with the adjusting unit 51.
  • the liquid level in the header tanks 61a, 61b does not change with respect to the direct print head 50, so that the printing ratios are not changed by the method of the direct print head 50.
  • the circulating variant of the ink supply 6 is particularly suitable for use of white printing ink with higher pigmentation, which otherwise tends to settle.
  • FIG. 3 is another embodiment of the ink supply system 6 of the FIG. 1 shown as a non-circulating variant in a diagram view. This indicates all previously in terms of the FIG. 2 However, the stirrer, the return ink pump, the switching valves in the second distribution unit 66r, the return header tank and the return pressure sensor on the direct print head 50 are omitted.
  • Direct printing machine 1 described and the ink supply system 6 are used in the regular printing operation as follows:
  • the containers 2 are transported with the conveyor 3 at the stationary direct printing stations 5w, 5c, 5 M , 5 Y , 5 K , wherein the container 2 at the stationary direct printing stations 5w, 5 C , 5 M , 5 Y , 5 K each of three Direct print heads 50 are printed with a direct print.
  • the direct print heads 50 of a color are supplied from the storage tank 60 with printing ink 60a by means of the ink supply system 6, wherein an ink flow from the storage tank 60 to the direct print head 50 is established via the feed 6v of the ink supply system 6.
  • an ink flow from the direct print head 50 back to the storage tank 60 made.
  • the meniscus pressure of the printing ink 60a to the direct printing head 50 with the header tanks 61a, 61b arranged in the front and optionally in the return 6v, 6r is adjusted such that a particularly high print quality is achieved.
  • the ink supply system 60 can be rinsed while the direct print head 50 is changed with as little loss of printing ink as possible.
  • valve island 62 it is possible to interrupt the ink flow via the direct print head 50 by means of the valve island 62 in order to build up the pressure of the printing ink 60a with the two headertanks 61a, 61b for a subsequent purge.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Ink Jet (AREA)
EP18182166.1A 2017-09-04 2018-07-06 Machine et procédé d'impression directe destinés à l'impression de récipients par impression directe Active EP3450179B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE102017215475.6A DE102017215475A1 (de) 2017-09-04 2017-09-04 Direktdruckmaschine und -verfahren zur Bedruckung von Behältern mit einem Direktdruck

Publications (2)

Publication Number Publication Date
EP3450179A1 true EP3450179A1 (fr) 2019-03-06
EP3450179B1 EP3450179B1 (fr) 2020-09-30

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EP18182166.1A Active EP3450179B1 (fr) 2017-09-04 2018-07-06 Machine et procédé d'impression directe destinés à l'impression de récipients par impression directe

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US (1) US20190070861A1 (fr)
EP (1) EP3450179B1 (fr)
CN (1) CN209351083U (fr)
DE (1) DE102017215475A1 (fr)

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Publication number Priority date Publication date Assignee Title
US11969994B2 (en) * 2020-09-14 2024-04-30 Assa Abloy Ab Ink jet nozzle health and printing reliability
DE102022122252A1 (de) 2022-09-02 2024-03-07 Dekron Gmbh Tintenversorgungssystem und Tintenversorgungsverfahren für den Digitaldruck
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CN209351083U (zh) 2019-09-06
DE102017215475A1 (de) 2019-03-07
US20190070861A1 (en) 2019-03-07

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