INKJET PRINTER AND INKJET PRINTING METHOD USING THE SAME

Abstract

Provided is an inkjet printer which is capable of preventing ink flow and color blurring as well as color mixing during multicolor printing when image formation is performed with aqueous ink on a web-shaped printing base material, and an inkjet printing method using the inkjet printer. The inkjet printer is configured to perform image formation by discharging aqueous ink to a web-shaped printing base material, and comprises: a conveyance mechanism configured to continuously convey the web-shaped printing base material; a single-pass system inkjet head configured to discharge, by a single-pass system, the aqueous ink to a surface of the web-shaped printing base material conveyed by the conveyance mechanism; and a surface pre-heating unit which is arranged on an upstream side of conveyance from the single-pass system inkjet head and is configured to heat at least the surface of the web-shaped printing base material, wherein image formation through use of the single-pass system inkjet head is performed on the web-shaped printing base material heated by the surface pre-heating unit.

Claims

1. An inkjet printer for aqueous ink which is configured to perform image formation by discharging aqueous ink to a web-shaped printing base material, the inkjet printer comprising: a conveyance mechanism configured to continuously convey the web-shaped printing base material; a single-pass system inkjet head configured to discharge, by a single-pass system, the aqueous ink to a surface of the web-shaped printing base material conveyed by the conveyance mechanism; and a surface pre-heating unit arranged on an upstream side of conveyance from the single-pass system inkjet head and the surface pre-heating unit being configured to heat at least the surface of the web-shaped printing base material, wherein image formation through use of the single-pass system inkjet head is performed on the web-shaped printing base material heated by the surface pre-heating unit.

2. An inkjet printer according to claim 1, wherein heating by the surface pre-heating unit is performed via a hot air blowing means for applying hot air to the surface of the web-shaped printing base material.

3. An inkjet printer according to claim 2, wherein the hot air blowing means comprises: a nozzle group main body having a plurality of slit-shaped hot air blowing nozzles arranged to form gaps therebetween, each of the plurality of slit-shaped hot air blowing nozzles having a slit-shaped hot air outlet port extending in a width direction of the web-shaped printing base material; and a suction mechanism configured to suck an atmosphere of the gaps formed in the nozzle group main body.

4. An inkjet printer according to claim 1, further comprising a back surface heating unit configured to heat a back surface of the web-shaped printing base material.

5. An inkjet printer according to claim 4, wherein heating by the back surface heating unit is performed via one of a hot air blowing means and a hot plate.

6. An inkjet printer according to 1, wherein the web-shaped printing base material is a transparent film.

7. An inkjet printing method, comprising: providing an inkjet printer comprising: a conveyance mechanism configured to continuously convey a web-shaped printing base material; a single-pass system inkjet head configured to discharge, by a single-pass system, the aqueous ink to a surface of the web-shaped printing base material conveyed by the conveyance mechanism; and a surface pre-heating unit arranged on an upstream side of conveyance from the single-pass system inkjet head and the surface pre-heating unit is configured to heat at least the surface of the web-shaped printing base material; performing, via the inkjet printer, single-pass system image formation via the single-pass system inkjet head with aqueous ink on the web-shaped printing base material heated by the surface pre-heating unit of the inkjet printer.

8. An inkjet printing method according to claim 7, wherein heating by the surface pre-heating unit is performed via a hot air blowing means for applying hot air to the surface of the web-shaped printing base material.

9. An inkjet printing method according to claim 8, wherein the hot air blowing means comprises: a nozzle group main body having a plurality of slit-shaped hot air blowing nozzles arranged to form gaps therebetween, each of the plurality of slit-shaped hot air blowing nozzles having a slit-shaped hot air outlet port extending in a width direction of the web-shaped printing base material; and a suction mechanism configured to suck an atmosphere of the gaps formed in the nozzle group main body.

10. An inkjet printing method according to claim 7, further comprising: providing a back surface heating unit configured to heat a back surface of the web-shaped printing base material.

11. An inkjet printing method according to claim 10, wherein heating by the back surface heating unit is performed via one of a hot air blowing means and a hot plate.

12. An inkjet printing method according to claim 7, wherein the web-shaped printing base material is a transparent film.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0016] FIG. 1 is a sectional structural view for illustrating one embodiment of an inkjet printer according to the present invention.

[0017] FIG. 2 is a perspective view for illustrating an embodiment of hot air blowing means to be used in the inkjet printer of the present invention.

[0018] FIG. 3 is an enlarged view for illustrating a main portion of FIG. 1.

[0019] FIG. 4 is an enlarged view for illustrating a main portion of another embodiment of an inkjet printer according to the present invention.

[0020] FIG. 5 is an enlarged view for illustrating a main portion of still another embodiment of an inkjet printer according to the present invention.

MODES FOR CARRYING OUT THE INVENTION

[0021] Embodiments of the present invention are described below but those embodiments are described as examples and hence it is understood that various modifications may be made thereto without departing from the technical spirit of the present invention. In addition, the same members are denoted by the same reference symbols.

[0022] FIG. 1 is a sectional structural view for illustrating one embodiment of an inkjet printer according to the present invention.

[0023] In FIG. 1, the reference symbol 10A denotes an inkjet printer of the present invention. The inkjet printer 10A is an inkjet printer for aqueous ink which is configured to perform image formation by discharging aqueous ink to a web-shaped printing base material 12. The inkjet printer 10A comprises: a conveyance mechanism 14 (conveyance mechanisms 14a and 14b in the illustrated embodiment) configured to continuously convey the web-shaped printing base material 12; single-pass system inkjet heads 16a to 16e configured to discharge, by a single-pass system, aqueous ink to a surface of the web-shaped printing base material 12 conveyed by the conveyance mechanism 14; and surface pre-heating units 18a to 18e which are arranged on an upstream side of conveyance from the inkjet heads 16a to 16e and are configured to heat at least the surface of the web-shaped printing base material 12. The ink is discharged by the inkjet heads 16a to 16e to the web-shaped printing base material 12 heated by the surface pre-heating units 18a to 18e. Further, surface post-heating units 18b to 18f are arranged on a downstream side of conveyance from the inkjet heads 16a to 16e so that drying of aqueous ink discharged by the inkjet heads 16a to 16e is further accelerated.

[0024] The surface pre-heating units 18b to 18e also act as surface post-heating units and also serve as the surface post-heating units 18b to 18e.

[0025] As the inkjet heads 16a to 16e, various known single-pass system inkjet discharge devices can be used.

[0026] As the conveyance mechanism 14, any known mechanism can also be used as long as the mechanism can convey the web-shaped printing base material 12. As illustrated in FIG. 1, it is possible to adopt a configuration comprising drive belts 20 and 34, an original roller 22 around which the web-shaped printing base material 12 is wound, various rollers 24, 26, 28, and 30 configured to convey the web-shaped printing base material 12, and a roll-up roller 32 configured to roll up the printed web-shaped printing base material 12. There is illustrated an operator O of the inkjet printer.

[0027] Further, the original roller 22 around which the web-shaped printing base material 12 is wound is accommodated in a heating box 36, and is heated in advance (pre-heated) to a temperature of from 60 C. to 70 C. As a method of heating in the heating box 36, heating may be performed with hot air or by various known heaters. In the illustrated example, there is illustrated a configuration in which the inside of the heating box 36 is heated with hot air.

[0028] At least the surface of the web-shaped printing base material 12 heated in advance as described above is heated by the surface pre-heating unit 18a arranged on the upstream side of conveyance from the inkjet heads 16a to 16e. As the surface pre-heating unit 18a, an example is given of hot air blowing means. In the hot air blowing means, hot air at a temperature of from about 40 C. to about 80 C., for example, a temperature of 70 C. is applied to the surface of the web-shaped printing base material 12. A time period for applying hot air is from about 2 seconds to about 3 seconds in the case of a printing speed of 15 m/min, but is appropriately changed also depending on the temperature of the hot air.

[0029] An embodiment of the hot air blowing means to be used as the surface pre-heating units 18a to 18e is illustrated in FIG. 2. As is well illustrated in FIG. 2, as hot air blowing means 42 being the surface pre-heating unit 18a, it is possible to adopt a configuration comprising a nozzle group main body 50 having a plurality of slit-shaped hot air blowing nozzles 46 arranged so as to form gaps 48 therebetween, the slit-shaped hot air blowing nozzles 46 each having a slit-shaped hot air outlet port 44 extending in a width direction of the web-shaped printing base material 12, and a suction mechanism (not shown) configured to suck an atmosphere of the gaps 48 formed in the nozzle group main body 50. The atmosphere of the gaps 48 is sucked in a direction opposite to blowing of hot air H (direction opposite to the arrow of FIG. 2) by the suction mechanism (not shown). As the suction mechanism, various known suction devices can be used and hence illustration thereof is omitted. Thus, the effect of reducing color blurring and the like caused by aqueous ink is achieved through suction of the atmosphere of the gaps 48.

[0030] Further, in the example illustrated in FIG. 1, as is well illustrated in FIG. 3, there is illustrated an example in which hot air blowing means similar to the hot air blowing means serving as the surface pre-heating unit 18a is used also as the surface post-heating unit 18b and arranged on the downstream side of conveyance from the inkjet head 16a. As is well illustrated in FIG. 1 and FIG. 2, the inkjet heads 16a to 16e are inkjet heads having respective ink storage tanks (not shown) for cyan (C), magenta (M), yellow (Y), black (B), and white (W), and aqueous ink I of respective colors is discharged from the inkjet heads 16a to 16e.

[0031] Further, in the embodiment illustrated in FIG. 1, a back surface heating unit 38 configured to heat the web-shaped printing base material 12 from a back surface thereof is arranged. As the back surface heating unit 38, a known hot plate can be used, and for example, an electrothermal heater having a filament laid on a ceramic plate can be used. When the hot plate is used as the back surface heating unit 38, it is suitable that the hot plate be used after being heated to a temperature of, for example, from 40 C. to 65 C. It is appropriate that the back surface heating unit 38 be arranged so as to correspond to the inkjet heads 16a to 16e. The back surface heating unit 38 may also be arranged across setting positions of the inkjet heads 16a to 16e as illustrated in FIG. 1, or can also be arranged in accordance with each setting position of the inkjet heads 16a to 16e.

[0032] Further, as the back surface heating unit 38, the hot air blowing means similar to the surface pre-heating unit 18a can also be used. Further, when the hot air blowing means is used as the back surface heating unit 38, it is suitable that, for example, hot air at a temperature of from 40 C. to 80 C. be applied to the back surface of the web-shaped printing base material 12.

[0033] In FIG. 4, there is illustrated an example in which the hot air blowing means is used as the back surface heating unit 38. In FIG. 4, there is illustrated hot air blowing means 52 serving as the back surface heating unit 38. The configuration other than arrangement of the hot air blowing means 52 as the back surface heating unit 38 is the same as the above-mentioned configuration.

[0034] Next, still another embodiment of an inkjet printer according to the present invention is illustrated in FIG. 5.

[0035] In FIG. 5, the reference symbol 10B denotes another embodiment of an inkjet printer of the present invention. In the inkjet printer 10B, as additional surface post-heating units, laser irradiation devices 40a to 40e are arranged on the downstream side of conveyance from the inkjet heads 16a to 16e. The configuration of the inkjet printer 10B is the same as that of the inkjet printer 10A described above except that the laser irradiation devices 40a to 40e are arranged.

[0036] With the inkjet printers 10A and 10B constructed as described above, when ink discharge by the inkjet heads 16a to 16e is performed with aqueous ink to the web-shaped printing base material 12 heated by the surface pre-heating unit 18a of the inkjet printers 10A and 10B, printing can be suitably performed with respect to a transparent PET film as the web-shaped printing base material without ink flow and color blurring, color mixing during multicolor printing, and the like even at a printing speed of 15 m/min. Further, as illustrated in the inkjet printers 10A and 10B, when the surface post-heating units and the back surface heating unit are combined, ink flow and ink blurring, color mixing during multicolor printing, and the like are further eliminated, and printing can be suitably performed.

REFERENCE SIGNS LIST

[0037] 10A, 10B: inkjet printer, 12: web-shaped printing base material, 14, 14a, 14b: conveyance mechanism, 16a to 16e: single-pass system inkjet head, 18a to 18e: surface pre-heating unit, 18b to 18f: surface post-heating unit, 20, 34: drive belt, 22: original roller, 24, 26, 28, 30: roller, 32: roll-up roller, 36: heating box, 38: back surface heating unit, 40a to 40e: laser irradiation device, 42, 52: hot air blowing means, 44: slit-shaped hot air outlet port, 46: slit-shaped hot air blowing nozzle, 48: gap, 50: nozzle group main body, H: hot air, I: aqueous ink, O: operator.