The present invention relates to an inkjet printer configured to perform printing on a web-shaped print base material by a single-pass method with an aqueous ink.
Hitherto, as an inkjet printer configured to perform printing on a web-shaped print base material by a single-pass method with an aqueous ink, there has been known, for example, an inkjet printer described in Patent Document 1.
Moreover, the applicant of the present application has proposed an inkjet printer described in Patent Document 2, which is well-reputed.
In those related-art inkjet printers, for conveyance of a web-shaped print base material, an unwinding portion and a winding portion for the web-shaped print base material are located on opposite sides over an inkjet head portion. That is, the unwinding portion for the web-shaped print base material is located on an upstream side of the inkjet head portion, and the winding portion for the web-shaped print base material is located on a downstream side of the inkjet head portion.
With the inkjet printer adopting the single-pass method, printing is performed while the web-shaped print base material is continuously conveyed. Therefore, as compared to an inkjet printer of a sheet-feeding type, printing can be performed on a long plastic film or a long paper. Moreover, printing by the single-pass method can be performed at higher speed as compared to an inkjet printer of a scanning type, and hence the inkjet printer adopting the single-pass method is suitable for large-lot printing.
Meanwhile, in recent years, there has been an increase in so-called small-lot and wide-variety orders such as printing orders with a small amount and different kinds. In order to deal with such small-lot and wide-variety orders, it is required that an operator frequently go back and forth between the unwinding portion for the web-shaped print base material and the winding portion for the web-shaped print base material to replace the web-shaped print base material. Thus, there arises a problem in that such an operation is cumbersome.
Moreover, an installation space for the inkjet printer is limited in many cases, and hence there has been a demand for reducing the installation space as much as possible.
The present invention has an object to provide an inkjet printer with an unwinding portion and an adjacent winding portion in an uneven arrangement, which enables easy replacement of a web-shaped print base material on an unwinding portion and a winding portion for the web-shaped print base material at the time of printing on the web-shaped print base material with an aqueous ink, is capable of dealing with small-lot and wide-variety printing, and enables further space saving as compared to related arts.
In order to solve the problems described above, according to the present invention, there is provided an inkjet printer with an unwinding portion and an adjacent winding portion in an uneven arrangement, including: an unwinding portion for a web-shaped print base material; a single-pass inkjet head portion configured to discharge an aqueous ink to a surface of the unwound web-shaped print base material by a single-pass method; and an adjacent winding portion, which is provided adjacent to the unwinding portion, and is configured to wind the web-shaped print base material, wherein the unwinding portion and the adjacent winding portion are both installed side by side in an uneven arrangement on one of an upstream side and a downstream side of the single-pass inkjet head portion.
It is preferred that the inkjet printer with an unwinding portion and an adjacent winding portion in an uneven arrangement further include a drying zone for drying a surface of the web-shaped print base material having the aqueous ink discharged thereto.
It is preferred that the unwinding portion and the adjacent winding portion are installed side by side in an uneven arrangement on an upstream side of the single-pass inkjet head portion.
The printing with an inkjet printer is sometimes called “image forming” because a digital image is formed with a dot group of discharged ink droplets.
According to the present invention, there can be attained a significant effect of providing the inkjet printer with an unwinding portion and an adjacent winding portion in an uneven arrangement, which enables easy replacement of the web-shaped print base material on the unwinding portion and the winding portion for the web-shaped print base material at the time of printing on the web-shaped print base material with an aqueous ink, is capable of dealing with small-lot and wide-variety printing, and enables further space saving as compared to related arts.
The embodiment of the present invention is described below. However, the following description describes an example, and needless to say, the present invention can be modified in various ways unless departing from the technical idea of the present invention. The same elements are denoted by the same reference symbols.
The inkjet printer 10 with an unwinding portion and an adjacent winding portion in an uneven arrangement includes an unwinding portion 14 for a web-shaped print base material 12, a single-pass inkjet head portion 18 configured to discharge an aqueous ink to a surface 16 of the unwound web-shaped print base material 12 by a single-pass method, and an adjacent winding portion 20, which is provided adjacent to the unwinding portion 14, and is configured to wind the web-shaped print base material 12. The unwinding portion 14 and the adjacent winding portion 20 are both installed side by side in an uneven arrangement on one of an upstream side U and a downstream side D of the single-pass inkjet head portion 18.
In the illustrated example, an illustration is given of an example of a configuration in which the unwinding portion 14 and the adjacent winding portion 20 are both installed side by side in an uneven arrangement on the upstream side U of the single-pass inkjet head portion 18. The unwinding portion 14 and the adjacent winding portion 20 are both installed in the uneven arrangement as described above, and hence an unwinding roll of the unwinding portion 14 and a winding roll of the adjacent winding portion 20 can be rotated in synchronization with each other through use of a single motor.
A configuration of the unwinding portion 14 itself is a publicly known configuration in which the unwinding roll is rotated through use of a drive belt as described in Patent Document 2. Moreover, a configuration of the adjacent winding portion 20 itself is a publicly known configuration in which the winding roll is rotated through use of a drive belt as described in Patent Document 2.
It is only required that the web-shaped print base material 12 be a web-shaped printing base material. However, it is preferred that the web-shaped print base material 12 be, for example, a transparent film, an opaque film, or a colored film. In addition, there is no particular limitation on the material for the film, and for example, a film using a synthetic resin, such as polyethylene terephthalate (PET), polyvinyl chloride (PVC), polypropylene (PP), polyethylene (PE), polystyrene (PS), or nylon (NY), may be suitably used as a web-shaped printing substrate for the film. Alternatively, a metal film obtained by forming a metal, such as aluminum, into a film shape may also be suitably used.
As the inkjet head portion 18, there are illustrated inkjet heads respectively including ink storage tanks (not shown) for cyan (C), magenta (M), yellow (Y), black (B), and white (w), and aqueous inks of respective colors are discharged from the inkjet heads 18a to 18e. Examples of the inkjet heads 18a to 18e which can be applied include various types of publicly known single-pass inkjet discharging devices. For example, an inkjet head described in Patent Document 2 can be used as each of the inkjet heads.
Moreover, surface heating portions 60a to 60e which are configured to heat at least a surface of the web-shaped print base material 12 having the aqueous inks discharged thereto are provided adjacent to the inkjet heads 18a to 18e, respectively. As each of the surface heating portions 60a to 60e, for example, a surface heating portion described in Patent Document 2 can be applied. For example, a warm-air blower described in Patent Document 2 can be applied as each of the surface heating portions 60a to 60e. When the warm-air blower is adopted as each of the surface heating portions, warm air having a temperature of from about 40° C. to 80° C., for example, 70° C. is blown onto the surface of the web-shaped print base material 12. A time period of blowing the warm air is from about 2 seconds to 3 seconds when a printing speed is 15 m/min. However, the time period is suitably changed depending also on the temperature of the warm air.
Further, the web-shaped print base material 12 having the aqueous inks discharged thereto is conveyed through a drying zone 22. As the drying zone 22, there may be used a drying machine. In the illustrated example, an illustration is given of an example using a heating box 24. The heating box 24 is covered with heat insulation walls 26 having a heat insulation structure, and has an inlet 28 for the web-shaped print base material 12 and an outlet 30 for the web-shaped print base material 12.
The heating box 24 is heated in advance (preheating) to a temperature of from 60° C. to 70° C. The inside of the heating box 24 may be heated with warm air or may be heated with a heater among various publicly known heaters. In the illustrated example, an illustration is given of a configuration in which the inside of the heating box 24 is heated with warm air.
Moreover, various rollers 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, and 58 for conveying the web-shaped print base material 12 are provided.
The web-shaped print base material 12 is conveyed with the above-mentioned rollers and sent to the adjacent winding portion 20. The reference symbol O denotes an operator of the inkjet printer.
As described above, the unwinding portion 14 and the adjacent winding portion 20 are both installed side by side in an uneven arrangement on any one of the upstream side U and the downstream side D of the single-pass inkjet head portion 18. Thus, the operator O can easily replace the web-shaped print base material 12 on the unwinding portion 14 and the adjacent winding portion 20 for the web-shaped print base material 12. Therefore, the inkjet printer 10 with an unwinding portion and an adjacent winding portion in an uneven arrangement is extremely easy to use.
Therefore, the inkjet printer 10 with an unwinding portion and an adjacent winding portion in an uneven arrangement can deal with the small-lot and wide-variety printing. Further, the inkjet printer 10 with an unwinding portion and an adjacent winding portion in an uneven arrangement requires an installation space which is only about one-half the installation space for the related-art inkjet printers, thereby being capable of also achieving space saving.
10: inkjet printer with unwinding portion and adjacent winding portion in an uneven arrangement, 12: web-shaped print base material, 14: unwinding portion, 16: surface of web-shaped print base material, 18: single-pass inkjet head portion, 18a to 18e: inkjet head, 20: adjacent winding portion, 22: drying zone, 24: heating box, 26: heat insulation wall, 28: inlet, 30: outlet, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58: roller, 60a to 60e: surface heating portion, D: downstream side of inkjet head portion, O: operator, U: upstream side of inkjet head portion.
Number | Date | Country | Kind |
---|---|---|---|
2017-247147 | Dec 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2018/044822 | 12/6/2018 | WO | 00 |