EP2028001B1 - Combined apparatus for laser Image transfer printing and lithographic cold stamping - Google Patents
Combined apparatus for laser Image transfer printing and lithographic cold stamping Download PDFInfo
- Publication number
- EP2028001B1 EP2028001B1 EP07114579A EP07114579A EP2028001B1 EP 2028001 B1 EP2028001 B1 EP 2028001B1 EP 07114579 A EP07114579 A EP 07114579A EP 07114579 A EP07114579 A EP 07114579A EP 2028001 B1 EP2028001 B1 EP 2028001B1
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- EP
- European Patent Office
- Prior art keywords
- roller
- assembly
- air suction
- printing
- conveying
- 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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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F21/00—Devices for conveying sheets through printing apparatus or machines
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F13/00—Common details of rotary presses or machines
- B41F13/02—Conveying or guiding webs through presses or machines
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F19/00—Apparatus or machines for carrying out printing operations combined with other operations
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F19/00—Apparatus or machines for carrying out printing operations combined with other operations
- B41F19/02—Apparatus or machines for carrying out printing operations combined with other operations with embossing
- B41F19/06—Printing and embossing between a negative and a positive forme after inking and wiping the negative forme; Printing from an ink band treated with colour or "gold"
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F21/00—Devices for conveying sheets through printing apparatus or machines
- B41F21/10—Combinations of transfer drums and grippers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F21/00—Devices for conveying sheets through printing apparatus or machines
- B41F21/10—Combinations of transfer drums and grippers
- B41F21/102—Combinations of transfer drums and grippers with pneumatic means
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41P—INDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
- B41P2219/00—Printing presses using a heated printing foil
- B41P2219/50—Printing presses using a heated printing foil combined with existing presses
- B41P2219/51—Converting existing presses to foil printing presses
Definitions
- the present invention relates to a printing apparatus and in particular to an apparatus that can be used both for laser image transfer printing from a laser film to a substrate or a printing medium and for transfer printing of cold stamping metal foil to the substrate by lithography.
- WO 2005/100024 A1 discloses a printing assembly with an embossing device
- DE 44 04 128 A1 discloses an apparatus for producing security documents.
- a combined apparatus for laser image transfer printing/lithographic cold stamping comprising a frame and mounted thereon a printing assembly, a laminating assembly, a laminated film receiving and releasing assembly, a substrate discharging assembly, a product receiving assembly, a plurality of conveying/holding means and a UV irradiator, wherein the printing assembly consists of a flexographic printing unit, a lithographic printing unit, conveying/holding means and on-off systems, the conveying/holding means being arranged between the flexographic printing unit and the lithographic printing unit, and the on-off systems being disposed on the flexographic printing unit and the lithographic printing unit.
- the flexographic printing unit is utilized to apply ultraviolet-curing varnish onto the selected portions or entire of the surface of a substrate and meanwhile the lithographic printing unit is separated by the on-off systems to be in non-operating state; a prepared laser film is received and released by the laminated film receiving and releasing assembly, thus the apparatus as a whole effects the laser image transfer printing.
- the lithographic printing unit is utilized to apply ultraviolet-curing adhesives onto the selected portions or entire of the surface of a substrate and meanwhile the flexographic printing unit is separated by the on-off system to be in non-operating state; an electrochemical foil attached film is received and released by the laminated film receiving and releasing assembly, thereby the apparatus as a whole effects the lithographic cold-stamping for a single printing stock.
- said laminating assembly comprises an upper roller and a lower roller that cooperate with one another, and no special holding means or structure for the substrate is provided on the lower roller, the substrate tends to wobble when getting in contact with the lower roller, therefore resulting in inaccurate lamination or low lamination quality. Additionally, no special separating device or structure for the substrate is provided on the lower roller, thus there is a great likelyhood that the substrate cannot leave the lower roller smoothly.
- the aforementioned printing assembly comprises a separate flexographic printing unit, a separate lithographic printing unit and conveying/holding means provided between the flexographic unit and the lithographic unit, thus such an arrangement brings about the drawbacks of too many parts, complex structure as well as the relatively high total cost.
- the main object of the present invention is to overcome the shortcomings of the combined laser image transfer printing/lithographic cold stamping apparatus disclosed in the applicant's prior application.
- the said shortcomings lie in that, in the case where no special holding means or structure for the substrate is provided on the lower roller, the wobbling of the substrate occurring when in contact with the lower roller easily cause inaccurate lamination or lamination quality problems, and also, smooth separation of the substrate from the lower roller can be problematic because no special separating device or structure for the substrate is provided on the lower roller.
- these aforesaid shortcomings can be overcome by providing an improved apparatus for laser image transfer printing and lithographic cold stamping.
- An additional object of the present invention is to overcome the drawbacks such as too many parts, complex structure and high total cost existing in the combined laser image transfer printing/lithographic cold stamping apparatus disclosed in the applicant's prior application. This object can also be achieved by providing an improved apparatus for laser image transfer printing and lithographic cold stamping according to the invention.
- the present invention is to provide a combined apparatus for laser image transfer printing and lithographic cold stamping, comprising a frame and mounted thereon a printing assembly, a laminating assembly, a laminated film receiving and releasing assembly, a substrate discharging assembly, a product receiving mechanism, a plurality of conveying/holding means and a UV irradiator, wherein the substrate discharging assembly, the printing assembly, the laminating assembly and the product receiving assembly are arranged in order from the fore to the aft with conveying/holding means provided between each two adjacent assemblies, and the laminated film receiving and releasing assembly is located close to the laminating assembly, the UV irradiator is arranged behind the point of pressing operation of the laminating assembly comprising an upper roller and a lower roller that are rotatablely cooperated on the frame, it is characterized in that, said lower roller has sandwich cavities extending axially and provided inwardly of the arc outer surface, the cavities are circumferentially divided
- the present invention aims to improve the structure/construction of the printing assembly on the basis of the above mentioned.
- the newly structured printing assembly according to the present invention comprises an impression roller, a rubber roller cooperating with the impression roller, a plate roller cooperating with the rubber roller, an anilox roller cooperating with said rubber roller through a guide on the frame, and ink supply and homogenizing components with which the plate roller and the anilox roller each cooperate correspondingly.
- the number of the above mentioned air suction or blowing cavities facing each air suction or blowing orifice may be one or more.
- the covering on the frame provides a sealing for side openings of the air suction or blowing cavities and also a support for the air suction and blowing orifices, and remains immovable in use when the air suction or blowing cavities rotate with the lower roller.
- a predetermined seal degree can be provided for openings of the air suction or blowing cavities.
- the above cavities covered by the covering of the frame may be part of or all of the air suction or blowing cavities.
- the plate roller and the anilox roller may cooperate with the rubber roller in such a manner that, in the mode of laser image transfer printing, the plate roller separates from the rubber roller and the anilox roller is brought in contact with the rubber roller, and alternatively in the mode of lithographic cold stamping, the anilox roller separates from the rubber roller and the plate roller is made in contact with the rubber roller.
- the separation or contact between the plate roller and the rubber roller can be realized by removing or placing a lithographic plate and an interleaver, while the separation or contact between the anilox roller and the rubber roller can be achieved by sliding the anilox roller along a guide on the frame.
- the rubber roller when it is in contact with the plate roller or anilox roller, it refers to working mode, and when the rubber roller separates from the plate roller or anilox roller, it refers to nonworking mode.
- said plate roller and anilox roller each cooperate with a separate ink supply and homogenizing component.
- the said conveying/holding means serves to carry a single substrate or product and to hold it thereon during the carrying process.
- the conveying/holding means can be in the form of an assembly comprising a belt conveyor and a pinch roller, a gripping jaw, a gripping belt or a negative pressure suction slot which cooperate with the belt conveyor, and can also be structured as an assembly comprising a carrying roller and a pinch roller, a gripping jaw or gripping belt which cooperate with the carrying roller.
- a monitoring and conveying control means comprising a monitor disposed within the operational route of the laminated film from the laminated film receiving and releasing assembly and a conveying controller arranged on the corresponding conveying/holding means that can be generally positioned between the laminating assembly and the printing assembly, can be provided to avoid quality problems caused by pressing the portions of laminated film which have defects on the electrochemical foil onto the substrate.
- Said monitor may be formed as a photoelectric sensor or the like and the conveying controller may include a servomotor and so on.
- the above described laminated film receiving and releasing assembly generally comprises a plurality of guide rollers and two receiving and releasing rollers.
- the receiving and releasing rollers can be long rollers or constructed by a plurality of short rollers connected in series along a roller axis.
- Each pair of the short rollers in the receiving and releasing rollers of the series type is used for receiving and releasing a roll of narrow breadth laminated film.
- the use of narrow breadth film will increase the usage of the laminated films and reduce the production cost.
- a film applicator which may work in any suitable manner such as print coating, spraying or daubing and so on, can be provided between the laminating assembly and the product receiving assembly, specially for transfer printing of cold stamping foil by lithography. Since in the lithographic cold stamping, a small amount of metallic powder, which may be caused by the metal foil, is attached on the product released from the laminating assembly, it may do harm to the subsequent inking printing procedure, however, with the help of a thin layer of film applied by the film applicator onto the substrate, the above disadvantageous effects can be eliminated.
- the lower roller has sandwich cavities provided inwardly of the arc surface thereof. These cavities extend axially and are circumferentially divided into a plurality of air suction or blowing cavities, each of which has at least one side openings and air holes opened into the arc outer surface of the lower roller, and the covering is provided on the frame to cover the openings of the air suction or blowing cavities and has air suction and blowing orifices each facing the corresponding openings of air suction or blowing cavities, by doing so, when the lower roller is in operation, the substrate becomes suctioned tightly onto the surface of the lower roller with the effect of the negative pressure through the air holes such that inaccurate lamination or quality concerned problems caused by the wobbling of the substrate can be avoided, and upon the completion of the laminating process of the lower roller, the substrate is pushed outwardly by air blowing through said air holes so as to ensure that the substrate can leave the lower roller smoothly.
- a newly structured printing assembly comprising an impression roller, a rubber roller cooperating with the impression roller, a plate roller cooperating with the rubber roller, an anilox roller cooperating with said rubber roller through a guide on the frame, and ink supply and homogenizing components with which the plate roller and the anilox roller each cooperate correspondingly.
- the rubber roller is made in contact with the anilox roller and meanwhile separates from the plate roller by removing from the latter the lithographic plate and interleaver; and the laminated film receiving and releasing assembly is used to receive and release a prepared laser film, thus the apparatus as a whole acts as a device for laser image transfer printing.
- the rubber roller While in a lithographic cold-stamping process, the rubber roller is made in contact with the plate roller and separates from the anilox roller, and the laminated film receiving and releasing assembly is utilized to receive and release a film attached with electrochemical foil, thus the apparatus as a whole acts as a device for lithographic cold stamping for a single printing stock.
- air suction and blowing structures are provided on the lower roller so that the substrate can be prevented from wobbling by tight suction or can leave the lower roller smoothly by outward push through air blowing.
- a rubber roller and an impression roller are matched as shared components for the flexographic printing and the lithographic printing so that two separate printing units are combined integrally, and thus the whole apparatus is simplified in structure.
- a combined apparatus for laser image transfer printing and lithographic cold stamping comprises a frame 1 and mounted thereon a printing assembly 2, a laminating assembly 3, a laminated film receiving and releasing assembly 4, a substrate discharging assembly 5, a product receiving assembly 6, a plurality of conveying/holding means 7 and a UV irradiator 8, wherein the substrate discharging assembly 5, the printing assembly 2, the laminating assembly 3 and the product receiving assembly 6 are orderly arranged from the fore to the aft in terms of the operating sequence with conveying/holding means 7, 9, 10 provided between each two adjacent assemblies, the laminated film withdrawal assembly 4 being positioned above the laminating assembly 3, the UV radiator 8 being arranged behind the point of pressing operation of the laminating assembly 3 comprising an upper roller 3 and a lower roller 11 that are rotatablely cooperated on the frame 1, it is characterized in that, said lower roller 11 has sandwich cavities 12 provided inwardly of its arc outer surface.
- the cavities extend axially and are circumferentially divided into a plurality of air suction or blowing cavities 13, 14, 15, 16, each of which opens on one side and has air holes 17, 18, 19, 20 opened to the arc outer surface of the lower roller 11, and a covering 21 is provided on the frame to cover openings of the air suction or blowing cavities 13, 14, 15, 16, air suction orifices 22, 23, 24 and an air blowing orifice 25 are provided on the covering with each facing the corresponding openings of said air suction or blowing cavities 13, 14, 15 or 16.
- Said printing assembly 2 comprises an impression roller 26, a rubber roller 27 cooperating with the impression roller 26, a plate roller 28 cooperating with the rubber roller 27, an anilox roller 29 cooperating with said rubber roller 27 through a guide 30 on the frame 1, and ink supply and homogenizing components (not shown, reference can be made to the specific structure of the well known ink supply and homogenizing components generally used in printing machines) with which the plate roller 28 and the anilox roller 29 each cooperate correspondingly.
- a lithographic plate and an interleaver 31 are provided on the plate roller 28.
- the laminated film receiving and releasing assembly is made up of guide rollers 34, 35 and two receiving and releasing rollers 32, 33 .
- Said conveying/holding means 7 comprises a belt conveyor 36, a pinch roller 37 and a carrying roller 38 which cooperate with the belt conveyor, while the conveying/holding means 9 or 10 comprises a belt conveyor(s) 39 and 40 or 42 and a negative pressure suction slot 41 or 43.
- the present combined apparatus is also provided with a monitoring and conveying control means 44, 45 comprising a monitor 44 arranged within the operational route of a laminated film 46 released from the laminated film receiving and releasing assembly 4 and a conveying controller 45 cooperating on a drive shaft of the belt conveyor 39 of the conveying/holding means 9.
- said anilox roller 29 may also have a chambered doctor blade.
- the rubber roller 27 separates from the anilox roller 29 and is made in contact with the plate roller 28 by attaching a lithographic plate and an interleaver 31 onto the latter, then the apparatus as a whole can effect the lithographic cold stamping for a single printing stock.
- the single substrate released from the substrate discharging assembly is passed via the conveying/holding means 7, and enters into the space between the impression roller 26 and the rubber roller 27, then is printed with ultraviolet-curing adhesives and carried via the conveying/holding means 9 into the laminating assembly 3.
- said substrate 47 is suctioned tightly to the surface of the lower roller 11, while the upper roller 3 presses an electrochemical-foil-attached laminated film 46 released from the laminated film receiving and releasing assembly 4 onto the substrate 47 on the lower roller.
- the substrate 47 is pushed outward in section B by blowing airflow from the lower roller 11 and conveyed forward together with the electrochemical-foil-attached laminated film 46 via the conveying/holding means 10.
- the pressed substrate passes by the UV irradiator 8, curing occurs to the electrochemical metal foil on the laminated film 46 and the ultraviolet-curing adhesives on the substrate.
- the laminated film 46 will separate from the electrochemical foil cured thereon.
- the substrate with cured electrochemical foil namely the product, is produced and then received by the product receiving assembly 6.
- This above-described process is monitored and controlled by the monitoring and conveying control means 44, 45 so that quality problems caused by pressing the portions of laminated film which have defects on the electrochemical foil onto the substrate can be avoided.
- the rubber roller 27 separates from the plate roller 28 by removing the lithographic plate and the interleaver 31, and is made in contact with the anilox roller 29, thus the apparatus as a whole serves for laser image transfer printing.
- a single substrate released from the substrate discharging assembly is passed via the conveying/holding means 7, and enters into the space between the impression roller 26 and the rubber roller 27, then is printed with ultraviolet-curing varnish and passed by the conveying/holding means 9 into the laminating assembly 3 where said substrate 47 is suctioned tightly in section A to the surface of the lower roller 11 and meanwhile the upper roller 3 presses onto the substrate 47 a prepared laser-image laminated film 46 released from the laminated film receiving and releasing assembly 4, and when leaving the laminating assembly 3, the substrate 47 is pushed outward in section B by airflow from the lower roller 11 and conveyed forward together with the prepared laser image laminated film 46 via the conveying/holding means 10.
- the laminated substrate passes by the UV irradiator 8
- curing occurs to the ultraviolet-curing varnish on the substrate, and as the cured substrate travels further, the laminated film 46 will separate from the substrate.
- the substrate impressed with laser image becomes a final product, which is then collected by the product receiving assembly 6.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Printing Methods (AREA)
- Delivering By Means Of Belts And Rollers (AREA)
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- Laser Beam Printer (AREA)
- Thermal Transfer Or Thermal Recording In General (AREA)
Abstract
Description
- The present invention relates to a printing apparatus and in particular to an apparatus that can be used both for laser image transfer printing from a laser film to a substrate or a printing medium and for transfer printing of cold stamping metal foil to the substrate by lithography.
- Special printing apparatuses are e. g. known from
WO 2005/100024 A1 andDE 44 04 128 A1 .WO 2005/100024 A1 discloses a printing assembly with an embossing device, whereasDE 44 04 128 A1 discloses an apparatus for producing security documents. - Presently the widely used apparatus for laser image transfer printing and that for lithographic cold stamping are serving as separate production facilities, although their workflows and most of their assemblies are similar or the same. For printing factories, this will give rise to the problems such as high total costs, large occupation in working space and low usage of the apparatus when two such apparatuses need to be bought at the same time.
- Therefore, in the applicant's prior Chinese Application No.
200720047388.6 - Since said laminating assembly comprises an upper roller and a lower roller that cooperate with one another, and no special holding means or structure for the substrate is provided on the lower roller, the substrate tends to wobble when getting in contact with the lower roller, therefore resulting in inaccurate lamination or low lamination quality. Additionally, no special separating device or structure for the substrate is provided on the lower roller, thus there is a great likelyhood that the substrate cannot leave the lower roller smoothly. Moreover, the aforementioned printing assembly comprises a separate flexographic printing unit, a separate lithographic printing unit and conveying/holding means provided between the flexographic unit and the lithographic unit, thus such an arrangement brings about the drawbacks of too many parts, complex structure as well as the relatively high total cost.
- Therefore, the main object of the present invention is to overcome the shortcomings of the combined laser image transfer printing/lithographic cold stamping apparatus disclosed in the applicant's prior application. The said shortcomings lie in that, in the case where no special holding means or structure for the substrate is provided on the lower roller, the wobbling of the substrate occurring when in contact with the lower roller easily cause inaccurate lamination or lamination quality problems, and also, smooth separation of the substrate from the lower roller can be problematic because no special separating device or structure for the substrate is provided on the lower roller. According to the invention, these aforesaid shortcomings can be overcome by providing an improved apparatus for laser image transfer printing and lithographic cold stamping.
- An additional object of the present invention is to overcome the drawbacks such as too many parts, complex structure and high total cost existing in the combined laser image transfer printing/lithographic cold stamping apparatus disclosed in the applicant's prior application. This object can also be achieved by providing an improved apparatus for laser image transfer printing and lithographic cold stamping according to the invention.
- Regarding the above-mentioned main object, the present invention is to provide a combined apparatus for laser image transfer printing and lithographic cold stamping, comprising a frame and mounted thereon a printing assembly, a laminating assembly, a laminated film receiving and releasing assembly, a substrate discharging assembly, a product receiving mechanism, a plurality of conveying/holding means and a UV irradiator, wherein the substrate discharging assembly, the printing assembly, the laminating assembly and the product receiving assembly are arranged in order from the fore to the aft with conveying/holding means provided between each two adjacent assemblies, and the laminated film receiving and releasing assembly is located close to the laminating assembly, the UV irradiator is arranged behind the point of pressing operation of the laminating assembly comprising an upper roller and a lower roller that are rotatablely cooperated on the frame, it is characterized in that, said lower roller has sandwich cavities extending axially and provided inwardly of the arc outer surface, the cavities are circumferentially divided into a plurality of air suction or blowing cavities, each of which has at least one side opening and air holes opened to the arc outer surface of the lower roller, and a covering is provided on the frame to cover the openings of the air suction or blowing cavities, which covering has air suction and blowing orifices each facing the corresponding openings of the air suction or blowing cavities.
- Regarding the additional object, the present invention aims to improve the structure/construction of the printing assembly on the basis of the above mentioned. The newly structured printing assembly according to the present invention comprises an impression roller, a rubber roller cooperating with the impression roller, a plate roller cooperating with the rubber roller, an anilox roller cooperating with said rubber roller through a guide on the frame, and ink supply and homogenizing components with which the plate roller and the anilox roller each cooperate correspondingly.
- Herein the term "fore" or "aft" will be referred in terms of the operating sequence.
- In addition, the number of the above mentioned air suction or blowing cavities facing each air suction or blowing orifice may be one or more.
- The covering on the frame provides a sealing for side openings of the air suction or blowing cavities and also a support for the air suction and blowing orifices, and remains immovable in use when the air suction or blowing cavities rotate with the lower roller. When the clearance between the covering and the air suction or blowing cavities becomes small to a certain degree, a predetermined seal degree can be provided for openings of the air suction or blowing cavities. The above cavities covered by the covering of the frame may be part of or all of the air suction or blowing cavities.
- According to the present invention, the plate roller and the anilox roller may cooperate with the rubber roller in such a manner that, in the mode of laser image transfer printing, the plate roller separates from the rubber roller and the anilox roller is brought in contact with the rubber roller, and alternatively in the mode of lithographic cold stamping, the anilox roller separates from the rubber roller and the plate roller is made in contact with the rubber roller. The separation or contact between the plate roller and the rubber roller can be realized by removing or placing a lithographic plate and an interleaver, while the separation or contact between the anilox roller and the rubber roller can be achieved by sliding the anilox roller along a guide on the frame. Here when the rubber roller is in contact with the plate roller or anilox roller, it refers to working mode, and when the rubber roller separates from the plate roller or anilox roller, it refers to nonworking mode. Generally, said plate roller and anilox roller each cooperate with a separate ink supply and homogenizing component.
- The said conveying/holding means serves to carry a single substrate or product and to hold it thereon during the carrying process. The conveying/holding means can be in the form of an assembly comprising a belt conveyor and a pinch roller, a gripping jaw, a gripping belt or a negative pressure suction slot which cooperate with the belt conveyor, and can also be structured as an assembly comprising a carrying roller and a pinch roller, a gripping jaw or gripping belt which cooperate with the carrying roller.
- Additionally, a monitoring and conveying control means comprising a monitor disposed within the operational route of the laminated film from the laminated film receiving and releasing assembly and a conveying controller arranged on the corresponding conveying/holding means that can be generally positioned between the laminating assembly and the printing assembly, can be provided to avoid quality problems caused by pressing the portions of laminated film which have defects on the electrochemical foil onto the substrate. Said monitor may be formed as a photoelectric sensor or the like and the conveying controller may include a servomotor and so on.
- The above described laminated film receiving and releasing assembly generally comprises a plurality of guide rollers and two receiving and releasing rollers. Here the receiving and releasing rollers can be long rollers or constructed by a plurality of short rollers connected in series along a roller axis. Each pair of the short rollers in the receiving and releasing rollers of the series type is used for receiving and releasing a roll of narrow breadth laminated film. For a narrow-breadth substrate or substrate-laminated area, the use of narrow breadth film will increase the usage of the laminated films and reduce the production cost.
- Moreover, a film applicator, which may work in any suitable manner such as print coating, spraying or daubing and so on, can be provided between the laminating assembly and the product receiving assembly, specially for transfer printing of cold stamping foil by lithography. Since in the lithographic cold stamping, a small amount of metallic powder, which may be caused by the metal foil, is attached on the product released from the laminating assembly, it may do harm to the subsequent inking printing procedure, however, with the help of a thin layer of film applied by the film applicator onto the substrate, the above disadvantageous effects can be eliminated.
- As described above, the lower roller has sandwich cavities provided inwardly of the arc surface thereof. These cavities extend axially and are circumferentially divided into a plurality of air suction or blowing cavities, each of which has at least one side openings and air holes opened into the arc outer surface of the lower roller, and the covering is provided on the frame to cover the openings of the air suction or blowing cavities and has air suction and blowing orifices each facing the corresponding openings of air suction or blowing cavities, by doing so, when the lower roller is in operation, the substrate becomes suctioned tightly onto the surface of the lower roller with the effect of the negative pressure through the air holes such that inaccurate lamination or quality concerned problems caused by the wobbling of the substrate can be avoided, and upon the completion of the laminating process of the lower roller, the substrate is pushed outwardly by air blowing through said air holes so as to ensure that the substrate can leave the lower roller smoothly. Further, less parts, simple structure and low total cost of the whole apparatus can be achieved with a newly structured printing assembly comprising an impression roller, a rubber roller cooperating with the impression roller, a plate roller cooperating with the rubber roller, an anilox roller cooperating with said rubber roller through a guide on the frame, and ink supply and homogenizing components with which the plate roller and the anilox roller each cooperate correspondingly. When a laser image transfer printing process is performed, the rubber roller is made in contact with the anilox roller and meanwhile separates from the plate roller by removing from the latter the lithographic plate and interleaver; and the laminated film receiving and releasing assembly is used to receive and release a prepared laser film, thus the apparatus as a whole acts as a device for laser image transfer printing. While in a lithographic cold-stamping process, the rubber roller is made in contact with the plate roller and separates from the anilox roller, and the laminated film receiving and releasing assembly is utilized to receive and release a film attached with electrochemical foil, thus the apparatus as a whole acts as a device for lithographic cold stamping for a single printing stock.
- In one aspect of the present invention, air suction and blowing structures are provided on the lower roller so that the substrate can be prevented from wobbling by tight suction or can leave the lower roller smoothly by outward push through air blowing. In a second aspect of the present invention, a rubber roller and an impression roller are matched as shared components for the flexographic printing and the lithographic printing so that two separate printing units are combined integrally, and thus the whole apparatus is simplified in structure.
- Further explanation of the present invention is made in the following detailed description in combination with the embodiments with reference to the accompanying drawings, wherein:
- Figure 1
- shows schematically a cross-section of an embodiment of the present invention;
- Figure 2
- shows schematically a sectional view of the lower roller in
Figure 1 in an enlarged manner; - Figure 3
- is a schematic view showing the cooperation of the lower roller in
Figure 2 with the covering on the frame; - Figure 4
- schematically shows an operation mode different from Fig-
ure 1. - Now referring to
Figure 1 to Figure 4 , a combined apparatus for laser image transfer printing and lithographic cold stamping according to the present invention comprises aframe 1 and mounted thereon aprinting assembly 2, alaminating assembly 3, a laminated film receiving and releasingassembly 4, asubstrate discharging assembly 5, a product receiving assembly 6, a plurality of conveying/holding means 7 and aUV irradiator 8, wherein thesubstrate discharging assembly 5, theprinting assembly 2, thelaminating assembly 3 and the product receiving assembly 6 are orderly arranged from the fore to the aft in terms of the operating sequence with conveying/holding means film withdrawal assembly 4 being positioned above the laminatingassembly 3, theUV radiator 8 being arranged behind the point of pressing operation of the laminatingassembly 3 comprising anupper roller 3 and alower roller 11 that are rotatablely cooperated on theframe 1, it is characterized in that, saidlower roller 11 hassandwich cavities 12 provided inwardly of its arc outer surface. The cavities extend axially and are circumferentially divided into a plurality of air suction or blowingcavities air holes lower roller 11, and acovering 21 is provided on the frame to cover openings of the air suction or blowingcavities air suction orifices orifice 25 are provided on the covering with each facing the corresponding openings of said air suction or blowingcavities - Said
printing assembly 2 comprises animpression roller 26, arubber roller 27 cooperating with theimpression roller 26, aplate roller 28 cooperating with therubber roller 27, ananilox roller 29 cooperating with saidrubber roller 27 through aguide 30 on theframe 1, and ink supply and homogenizing components (not shown, reference can be made to the specific structure of the well known ink supply and homogenizing components generally used in printing machines) with which theplate roller 28 and theanilox roller 29 each cooperate correspondingly. - In addition, a lithographic plate and an
interleaver 31 are provided on theplate roller 28. The laminated film receiving and releasing assembly is made up ofguide rollers rollers holding means 7 comprises abelt conveyor 36, apinch roller 37 and acarrying roller 38 which cooperate with the belt conveyor, while the conveying/holding means 9 or 10 comprises a belt conveyor(s) 39 and 40 or 42 and a negativepressure suction slot monitor 44 arranged within the operational route of a laminatedfilm 46 released from the laminated film receiving and releasingassembly 4 and aconveying controller 45 cooperating on a drive shaft of thebelt conveyor 39 of the conveying/holding means 9. Besides, saidanilox roller 29 may also have a chambered doctor blade. - When this combined apparatus operates in the mode as shown in
Figure 1 , therubber roller 27 separates from theanilox roller 29 and is made in contact with theplate roller 28 by attaching a lithographic plate and aninterleaver 31 onto the latter, then the apparatus as a whole can effect the lithographic cold stamping for a single printing stock. In operation, the single substrate released from the substrate discharging assembly is passed via the conveying/holding means 7, and enters into the space between theimpression roller 26 and therubber roller 27, then is printed with ultraviolet-curing adhesives and carried via the conveying/holding means 9 into thelaminating assembly 3. In section A ofFigure 2 , saidsubstrate 47 is suctioned tightly to the surface of thelower roller 11, while theupper roller 3 presses an electrochemical-foil-attachedlaminated film 46 released from the laminated film receiving and releasingassembly 4 onto thesubstrate 47 on the lower roller. When leaving the laminating assembly, thesubstrate 47 is pushed outward in section B by blowing airflow from thelower roller 11 and conveyed forward together with the electrochemical-foil-attachedlaminated film 46 via the conveying/holding means 10. When the pressed substrate passes by theUV irradiator 8, curing occurs to the electrochemical metal foil on thelaminated film 46 and the ultraviolet-curing adhesives on the substrate. As the cured substrate travels further, thelaminated film 46 will separate from the electrochemical foil cured thereon. Thus, the substrate with cured electrochemical foil, namely the product, is produced and then received by the product receiving assembly 6. This above-described process is monitored and controlled by the monitoring and conveying control means 44, 45 so that quality problems caused by pressing the portions of laminated film which have defects on the electrochemical foil onto the substrate can be avoided. - Alternatively, when this combined apparatus operates in the mode as shown in
Figure 4 , therubber roller 27 separates from theplate roller 28 by removing the lithographic plate and theinterleaver 31, and is made in contact with theanilox roller 29, thus the apparatus as a whole serves for laser image transfer printing. In this operation mode, a single substrate released from the substrate discharging assembly is passed via the conveying/holding means 7, and enters into the space between theimpression roller 26 and therubber roller 27, then is printed with ultraviolet-curing varnish and passed by the conveying/holding means 9 into thelaminating assembly 3 where saidsubstrate 47 is suctioned tightly in section A to the surface of thelower roller 11 and meanwhile theupper roller 3 presses onto the substrate 47 a prepared laser-imagelaminated film 46 released from the laminated film receiving and releasingassembly 4, and when leaving thelaminating assembly 3, thesubstrate 47 is pushed outward in section B by airflow from thelower roller 11 and conveyed forward together with the prepared laser image laminatedfilm 46 via the conveying/holding means 10. When the laminated substrate passes by theUV irradiator 8, curing occurs to the ultraviolet-curing varnish on the substrate, and as the cured substrate travels further, thelaminated film 46 will separate from the substrate. Thus, the substrate impressed with laser image becomes a final product, which is then collected by the product receiving assembly 6. -
- 1
- Frame
- 2
- Printing assembly
- 3
- Laminating assembly (same reference with the upper roller)
- 4
- Laminated film receiving and releasing assembly
- 5
- Substrate discharging assembly
- 6
- Product receiving assembly
- 7
- Conveying/holding means
- 8
- UV irradiator
- 9
- Conveying/holding means
- 10
- Conveying/holding means
- 11
- Lower roller
- 12
- Sandwich cavity
- 13, 14, 15 and 16
- air suction or blowing cavities
- 17, 18, 19 and 20
- Air holes
- 21
- Covering
- 22, 23 and 24
- air suction orifices
- 2 5
- Air blowing orifice
- 26
- Impression roller
- 27
- Rubber roller
- 28
- Plate roller
- 29
- Anilox roller
- 30
- Guide
- 31
- Lithographic plate and interleaver
- 32 and 33
- receiving and releasing rollers
- 34 and 35
- Guide rollers
- 36
- Belt conveyor
- 37
- Pinch roller
- 38
- Carrying roller
- 39 and 40
- Conveyor belt
- 41
- Negative pressure suction slot
- 42
- Belt Conveyor
- 43
- Negative pressure suction slot
- 44 and 45
- Monitoring and conveying control means (wherein 44 is a monitor and 45 is a conveying controller)
- 46
- Laminated film
- 47
- Substrate
Claims (6)
- A combined apparatus for laser image transfer printing and lithographic cold stamping, comprising:a frame (1); and mounted thereona printing assembly (2), a laminating assembly (3), a laminated film receiving and releasing assembly (4), a substrate discharging assembly (5), a product receiving assembly (6), a plurality of conveying/holding means (7) and a UV irradiator (8);wherein, the substrate discharging assembly (5), the printing assembly (2), the laminating assembly (3) and the product receiving assembly (6) are arranged in order from the fore to the aft with a conveying/holding means (7, 9, 10) provided between each two adjacent assemblies, the laminated film receiving and releasing assembly (4) being located in the vicinity of the laminating assembly (3) and the UV irradiator (8) being arranged behind the point of pressing operation of the laminating assembly (3) comprising an upper roller and a lower roller (11) that are rotatablely cooperated on the frame (1), characterized in that said lower roller (11) has sandwich cavities (12) provided inwardly of its arc outer surface, the cavities extend axially and are circumferentially divided into a plurality of air suction or blowing cavities (13, 14, 15, 16), each of which opens at least on one side and has air holes (17, 18, 19, 20) opened to the arc outer surface of the lower roller (11), and a covering (21) is provided on the frame (1) to cover the openings of the air suction or blowing cavities (13, 14, 15, 16), which covering (21) has air suction and blowing orifices (22, 23, 24, 25) each facing the corresponding openings of the air suction or blowing cavities (13, 14, 15, 16), and said printing assembly (2) comprises an impression roller (26), a rubber roller (27), a plate roller (28), an anilox roller (29) and ink supply and homogenizing components, and that the rubber roller (27) cooperates with the impression roller (26), the plate roller (28) cooperates with the rubber roller (27), the anilox roller (29) cooperates with said rubber roller (27) through a guide (30) on the frame (1), and the plate roller (28) and the anilox roller (29) each cooperate with their corresponding ink supply and homogenizing components, wherein said plate roller (28) and the anilox roller (29) cooperate with said rubber roller (27) in such a manner that, the rubber roller (27) separates from the plate roller (28) and remains in contact with the anilox roller (29) when in the mode of laser image transfer printing, or the rubber roller (27) separates from the anilox roller (29) and remains in contact with the plate roller (28) when in the mode of lithographic cold stamping.
- Combined apparatus for laser image transfer printing and lithographic cold stamping according to claim 1, characterized in that, the number of the air suction or blowing cavities (13, 14, 15, 16) facing each air suction or blowing orifice (22, 23, 24, 25) is one or more.
- Combined apparatus for laser image transfer printing and lithographic coldstamping according to claim 1, characterized in that, said conveying/holding means (7, 9, 10) can be in the form of an assembly comprising a belt conveyor (42) and a pinch roller (37), a gripping jaw, a gripping belt or a negative pressure suction slot (41, 43) which cooperate with the belt conveyor (42), or the form of an assembly comprising a carrying roller (38) and a pinch roller (37), a gripping jaw or gripping belt which cooperate with the carrying roller (38).
- Combined apparatus for laser image transfer printing and lithographic cold stamping according to claim 1, characterized in that, the apparatus is further provided with a monitoring and conveying control means comprising a monitor (44) disposed within the operational route of the laminated film from the laminated film receiving and releasing assembly (4) and a conveying controller (45) arranged on the corresponding conveying/holding means (9, 10).
- Combined apparatus for laser image transfer printing and lithographic cold stamping according to claim 4, characterized in that, said conveying controller (45) is arranged on the conveying/holding means (9, 10) provided between the laminating assembly (3) and the printing assembly (2).
- Combined apparatus for laser image transfer printing and lithographic cold stamping according to claim 1, characterized in that, said laminated film receiving and releasing assembly (4) comprises two receiving and releasing rollers (32, 33) and a plurality of guide rollers (34, 35), the receiving and releasing roller (32, 33) can be a long roller or constructed by a plurality of short rollers connected in series along a roller axes, each pair of the short rollers receives and releases a roll of narrow breadth laminated film.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP07114579A EP2028001B1 (en) | 2007-08-20 | 2007-08-20 | Combined apparatus for laser Image transfer printing and lithographic cold stamping |
AT07114579T ATE484388T1 (en) | 2007-08-20 | 2007-08-20 | COMBINED APPARATUS FOR LASER IMAGE TRANSFER PRINTING AND LITHOGRAPHIC COLD STAMPING |
DE602007009833T DE602007009833D1 (en) | 2007-08-20 | 2007-08-20 | Combined apparatus for laser image transfer printing and lithographic cold stamping |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP07114579A EP2028001B1 (en) | 2007-08-20 | 2007-08-20 | Combined apparatus for laser Image transfer printing and lithographic cold stamping |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2028001A1 EP2028001A1 (en) | 2009-02-25 |
EP2028001B1 true EP2028001B1 (en) | 2010-10-13 |
Family
ID=38895880
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP07114579A Not-in-force EP2028001B1 (en) | 2007-08-20 | 2007-08-20 | Combined apparatus for laser Image transfer printing and lithographic cold stamping |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP2028001B1 (en) |
AT (1) | ATE484388T1 (en) |
DE (1) | DE602007009833D1 (en) |
Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102009054203A1 (en) * | 2009-11-21 | 2011-06-16 | Devine Gmbh & Co. Kg | Device and method for producing printed and hot embossed webs with precisely arranged embossing and printing information |
CN102085746A (en) * | 2010-11-05 | 2011-06-08 | 陕西北人印刷机械有限责任公司 | Traction roll |
CN102241196A (en) * | 2011-05-17 | 2011-11-16 | 潍坊东航印刷科技股份有限公司 | Paper adsorption control device for printing roller of digital ink-jet printer |
CN104260550A (en) * | 2014-09-24 | 2015-01-07 | 沈阳达尔科技开发有限公司 | Air-film type paper discharge device for printing machine |
DE102017214692A1 (en) * | 2016-09-13 | 2018-03-15 | Heidelberger Druckmaschinen Ag | Digital press |
CN106626747A (en) * | 2016-12-29 | 2017-05-10 | 宁波长青家居用品有限公司 | Flexography and gold stamping integrated printing machine |
CN109748123A (en) * | 2017-11-03 | 2019-05-14 | 深圳市领创精密机械有限公司 | A kind of air draught roller and printing equipment |
CN108263073B (en) * | 2018-01-31 | 2019-09-03 | 重庆华康印务有限公司 | A kind of printing mechanism |
CN110421638B (en) * | 2019-09-06 | 2020-05-12 | 阳西县金宇星防护用品制造有限公司 | Cotton cross cutting equipment is adsorbed to efficient |
CN113878990B (en) * | 2021-10-18 | 2023-01-20 | 绍兴虹鑫激光材料科技有限公司 | Production equipment for positioning offset printing cold-stamping film |
CN115476493A (en) * | 2022-09-01 | 2022-12-16 | 泉州诺达机械有限公司 | Production equipment and process capable of producing cast film and PP film |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE4404128A1 (en) * | 1993-02-19 | 1994-08-25 | Gao Ges Automation Org | Security document and method for its manufacture |
DE19854844A1 (en) * | 1997-12-24 | 1999-07-01 | Heidelberger Druckmasch Ag | Control for suction air on openings in printer cylinder |
US6296601B1 (en) * | 1999-07-13 | 2001-10-02 | C.G. Bretting Manufacturing Company, Inc. | Vacuum assisted roll apparatus and method |
DE102005011571A1 (en) * | 2004-04-13 | 2005-11-17 | Man Roland Druckmaschinen Ag | Corrugated board coating method, involves passing transfer foil via gap along with printing sheet under pressure of counter-pressure cylinder, and adhering UV color coated image producing layers to sheet in section provided with adhesive |
DE102005062348A1 (en) * | 2005-12-23 | 2007-07-05 | WINKLER + DüNNEBIER AG | Control head for a suction roll |
-
2007
- 2007-08-20 EP EP07114579A patent/EP2028001B1/en not_active Not-in-force
- 2007-08-20 DE DE602007009833T patent/DE602007009833D1/en active Active
- 2007-08-20 AT AT07114579T patent/ATE484388T1/en not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
EP2028001A1 (en) | 2009-02-25 |
ATE484388T1 (en) | 2010-10-15 |
DE602007009833D1 (en) | 2010-11-25 |
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