KR20180001152A - Ink drying device - Google Patents

Abstract

According to an embodiment of the present invention, provided is an ink drying device including: a printing paper including a printing area; a printing device for forming ink on the printing area; a first light source device corresponding to one side of the printing paper and emitting light to the one side; a second light source device corresponding to the other side of the printing paper and emitting light to the other side; and a control device controlling the first and second light source devices to adjust the area of light emitted from the first and second light source devices in accordance with properties of the ink, in the printing area.

Description

[0001] INK DRYING DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink drying apparatus, and more particularly, to an ink drying apparatus that increases drying efficiency according to ink types when printing various kinds of inks on a printing paper and printing paper on which a plurality of inks are printed, And to an ink drying apparatus capable of preventing ink from drying.

In general, offset printing techniques using repellency of water and oil have been used in various printed matters such as business cards, pamphlets, and handbags. Offset printing is a technique in which ink is transferred to a rubber blanket By printing on the following paper or film, there is an advantage that the printing speed is fast and a large amount of printed matter, primary color, and high-quality printed matter can be made relatively cheap. In the case of such a printed matter, since the ink printed after the offset printing is completely dried and then subjected to a cutting step, the printed matter does not dry quickly. Therefore, in order to improve productivity, a separate printed matter drying apparatus is installed in the printing apparatus, The printed matter is dried using a heat source.

However, since the conventional drying apparatus irradiates a printed matter with a high-temperature heat source, there is a problem that the drying apparatus is broken, the heat source is difficult to interrupt in an emergency, and the heat source is difficult to control.

To solve this problem, Korean Patent Laid-Open Publication No. 2008-0090749 has proposed a drying apparatus for drying a printed matter using a UV lamp. However, Korean Patent Laid-Open Publication No. 2008-0090749 has a problem in that the inner side of the printed matter can not be dried properly due to the UV lamp existing in a region corresponding to only one side of the printed material when the printed material is formed in multiple layers on the fabric.

To solve this problem, Japanese Unexamined Patent Publication (Kokai) No. 2003-1794 discloses a drying apparatus for drying a printed matter using a UV lamp existing in a region corresponding to one side and the other side of a printed matter.

However, in Korean Patent Laid-Open Publication Nos. 2008-0090749 and 2003-1794, when printed matter having different properties is printed on a fabric, at least one of the one surface and the other surface of the fabric has an ultraviolet- Irrespective of the nature, there is a problem that the printed matter which is required to be dried is damaged or the printed matter which is printed and dried is damaged.

In addition, when a problem occurs in the UV lamp itself, there is a problem that the quality of the finished product is deteriorated due to the detection of the defective product or the lamination with the fixed product since the unprinted printed product is already laminated until the problem of the UV lamp is confirmed .

Korean Patent Laid-Open Publication No. 2008-0090749 Japanese Patent Application Laid-Open No. 2003-1794

The ink drying apparatus according to the embodiment of the present invention can provide an ink drying apparatus capable of setting the ultraviolet ray irradiation region differently based on the ink properties and irradiating the left outer line to the printing paper.

It is also possible to provide an ink drying apparatus capable of detecting a defective state of a plurality of light sources by using a test print region.

It is also possible to provide an ink drying apparatus capable of quickly distinguishing printing paper on which defects have occurred by dividing the printing paper by bundles using the test paper cut from the test printing area.

It is also possible to provide an ink drying apparatus capable of reducing power consumption by driving a light source corresponding only to the ultraviolet ray printing region.

In addition, when an additional heat source is used, it is also possible to provide an ink drying apparatus capable of preventing deterioration of the UV ink and reducing power consumption by providing a heat source only on a region where ultraviolet rays need not be irradiated.

An ink drying apparatus according to an embodiment of the present invention includes: a printing paper including a printing area; A printing device for forming the ink on the printing area; A first light source device corresponding to one side of the printing paper and irradiating light to the one side surface; A second light source device for irradiating light to the other side corresponding to the other side of the printing paper; And a control device controlling the first and second light source devices to adjust an irradiation area of light emitted from the first and second light source devices in accordance with properties of the ink in the printing area can do.

The first light source device of the ink drying apparatus according to an embodiment of the present invention includes a first light source plate and a plurality of first light sources, and the second light source device includes a second light source plate and a plurality of second light sources Wherein the first and second light sources emit left and right external lines, and the printing area includes a near ultraviolet printing area and a small ultraviolet printing area, and the first and second light sources are light sources corresponding to the near ultraviolet printing area It is possible to provide an ink drying apparatus for driving.

The ink of the ink drying apparatus according to the embodiment of the present invention is formed by a UV ink which is formed in the ultraviolet light printing area and cured by ultraviolet light and an ink which is formed in the small ultraviolet light printing area and contains ink which is not cured by ultraviolet light Device can be provided.

Each of the plurality of first and second light sources of the ink drying apparatus according to the embodiment of the present invention may provide an ink drying apparatus including a light source emitting device and a reflector.

The first light source plate of the ink drying apparatus according to the embodiment of the present invention includes a first imaging device and the second light source plate includes a second imaging device, And the second drying device includes a second light source state detecting device, the first light source is in a driving state, and the second light source is in an unactuated state, the second imaging device captures a test printing area Wherein the first light source is in the driving state and the first light source is in the non-driving state, the first imaging device captures the test print area, and the first light source state detecting device 1 image, and the second light source state detecting device provides an ink drying device for inspecting the state of the second light source based on the second image from the second image sensing device can do .

The control device of the ink drying device according to the embodiment of the present invention includes an ink state detection device and a light control device, and the ink state detection device detects, based on the property information of the ink on the printing area received from the printing device Wherein the light control device is configured to distinguish the near ultraviolet light printing area and the small light ultraviolet light printing area, and the light control device controls the first and second light sources A drying apparatus can be provided.

The driving light source of the plurality of first light sources of the ink drying apparatus according to the embodiment of the present invention is opposed to the driving light source of the second light source, and the un-driven light source of the plurality of first light sources, The ink drying apparatus facing the driving light source can be provided.

The ink drying apparatus according to the embodiment of the present invention can set the ultraviolet ray irradiation region differently based on the ink properties so that the left and right external lines can be irradiated onto the printing paper and the defective states of a plurality of light sources can be detected In addition, it is also possible to classify the printing paper by bundling using the test paper cut from the test printing area, to quickly distinguish the printing paper on which the failure occurs, and to reduce the power consumption by driving the light source corresponding only to the ultraviolet printing area It is possible to provide an ink drying apparatus capable of preventing deterioration of UV ink and reducing power consumption by providing a heat source only on a region where ultraviolet rays need not be irradiated when an additional heat source is used.

1 is an illustration of an example of a printing and drying apparatus according to an embodiment of the present invention.
2 is a top view showing a light source plate of the light source device and a light source mounted on the light source plate.
3 is an exemplary view of a driving light source and an un-driven light source.
4 is an illustration of an example of a near ultraviolet printing area and a small ultraviolet printing area of a printing paper.
5 is a detailed configuration diagram of the light source.
6 is a view illustrating a light source device of an ink drying apparatus according to another embodiment of the present invention.
7 is a view showing printing paper including a printing area and a test printing area.
8 is a view showing a heat source device.
9 is a view showing a printing paper according to another embodiment.
10 is a view showing laminated printing paper and test strips.

Hereinafter, the ink drying apparatus according to the embodiment of the present invention will be described in detail with reference to the drawings. The following embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the size and thickness of an apparatus may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. However, it should be understood that the present invention is not limited to the embodiments disclosed herein but may be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification. The dimensions and relative sizes of the layers and regions in the figures may be exaggerated for clarity of illustration.

The terminology used herein is for the purpose of describing embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. &Quot; comprise "and / or" comprising ", as used in the specification, means that the presence of stated elements, Or additions.

1 is an illustration of an example of a printing and drying apparatus according to an embodiment of the present invention. FIG. 2 is a top view showing a light source plate mounted on the light source plate of the light source device, and FIG. 3 is an illustration of a driving light source and an un-driven light source. And Fig. 4 is an illustration of an example of the ultraviolet light printing area and the small ultraviolet light printing area of the printing paper. 5 is a detailed configuration diagram of the light source.

1 to 5, a printing and drying apparatus 10 according to an embodiment of the present invention includes a printing paper 20, a roller 30, a printing apparatus 100, a drying apparatus 200, and a control apparatus 400 ).

The printing paper 20 may include a plurality of printing areas 50, and the plurality of printing areas 50 may be spaced apart from each other by a predetermined distance.

The rollers 30 can move the printing paper 20 in one direction.

The printing apparatus 100 can print ink on the printing paper 20. [

The printing apparatus 100 may form a plurality of inks having different properties on the printing paper 20. In addition, the printing apparatus 100 may form a plurality of inks having different colors on the printing paper 20 as a single layer or a plurality of layers.

The drying apparatus 200 may include a first drying apparatus 210 corresponding to one side of the printing paper 20 and a second drying apparatus 220 corresponding to the other side of the printing paper 20. [ have.

The drying apparatus 200 may include a light source apparatus 300. The first drying device 210 may include a first light source device 310 corresponding to one side of the printing paper 20 and irradiating light to one side of the printing paper 20, The second drying device 220 may include a second light source device 320 that corresponds to the other side of the printing paper 20 and irradiates light to the other side of the printing paper 20.

The control device 400 controls the first and second light source devices 310 and 320 to control the first and second light source devices 310 and 320 according to properties of the ink in the printing area 20. [ The irradiation area of the emitted light can be adjusted.

The print area 50 may include a near ultraviolet print area 51 and a small ultraviolet print area 52 depending on the contents of the print.

UV (ULTRA VIOLET RAY) ink, which is cured and dried by irradiating ultraviolet rays, may be formed as a single layer or a plurality of layers in the ultraviolet ray printing area 51.

In general, inks other than UV inks may be formed as a single layer or a plurality of layers in the small ultraviolet ray printing area 52. [

UV inks are used because of the advantages of drying speed, productivity and solvent-free. However, the UV inks have a smaller width of sparkle than ordinary inks and have a disadvantage in that it is difficult to form opacity when displaying multiple colors, the resolution is low, the lack of gloss and the sharpness of the dot are not clear. Therefore, in consideration of the content, character, color, multicolor expression, and opacity of the printed material to be expressed on the printing paper 20, both the UV ink and the general ink can be used in the printing area 50, .

The first light source device 310 may include a first light source plate 311 and a plurality of first light sources 511 mounted on the first light source plate 311.

The plurality of first light sources 511 may be regularly arranged, the first light sources 511 may be spaced apart from each other by a predetermined distance, and may be individually driven or non-driven.

The second light source device 320 may include a second light source plate 321 and a plurality of second light sources 522 mounted on the second light source plate 321.

The plurality of second light sources 521 may be regularly arranged, the second light sources 521 may be spaced apart from each other by a predetermined distance, and may be individually driven or non-driven.

The plurality of first and second light sources 511 and 521 can output left and right lines and only the light sources 500 corresponding to the near ultraviolet printing region 51 of the printing region 50 are driven, The light sources 500 corresponding to the region 52 may be undriven. The driving light source 501 faces the near ultraviolet printing region 51 and the un-driven light source 502 faces the small ultraviolet printing region 52 so that the ultraviolet light from the driving light source 501 is reflected by the printing region 50, Ultraviolet ray printing area 51 can be irradiated.

Each of the plurality of first and second light sources 511 and 521 may include a light source emitting device 510 and a reflecting mirror 520.

The light source emitting apparatus 510 can emit left and right external lines using a power supply signal supplied from the outside.

The reflecting mirror 520 surrounds the light source 500 and causes the light emitted from the light source emitting apparatus 510 to be focused on the focal point 60 so that the ultraviolet light emitted from the driving light source 501 is irradiated to the ultraviolet light- (51) alone.

The control device 400 may include a first communication unit 410, an ink state detection device 420, and a light control device 430.

The first communication unit 410 may communicate with the second communication unit 110 of the printing apparatus 100. The communication may be wired or wireless communication.

The control device 400 can receive information on the ultraviolet ray printing area 51 and the small ultraviolet ray printing area 52 on the printing area 50 from the printing apparatus 100. [

The ink state detecting device 420 detects the ink droplets of the ultraviolet ray printing region 51 and the small ultraviolet ray printing region 52 on the basis of the property information of the ink on the printing region 50 received from the printing apparatus 100 .

Meanwhile, the ultraviolet ray printing area 51 and the small ultraviolet ray printing area 52 may vary depending on the content and quality of the printed matter printed on the printing area 50. [

The light control device 430 controls the first and second light sources 511 and 521 based on the result of the classification of the ultraviolet light printing area 51 and the small ultraviolet light printing area 52, Only the light source facing the ultraviolet ray printing region 51 is driven so that ultraviolet rays are irradiated only to the ultraviolet ray printing region 51. [

That is, under the control of the light control device 430, the driving light source 501 of the plurality of first light sources 511 faces the driving light source 501 of the second light source 521, The un-driven light source 502 of one light source 511 faces the un-driven light source 502 of the second light source 521 to face one side of the ultraviolet light printing area 51 of the printing paper 20 Can be irradiated with ultraviolet rays.

The ink drying apparatus 10 according to the embodiment of the present invention irradiates ultraviolet rays only to the ultraviolet ray printing area 51 in which the UV ink is formed based on the nature of the ink having different properties expressed on the printing paper 20 , It is possible to prevent problems such as color change due to irradiation of ultraviolet light to a general ink. In addition, ultraviolet rays are concentratedly irradiated on both sides of the printing paper 20, and the progress of the UV ink progresses quickly, and when the UV ink is composed of a plurality of layers, the problem of the inner UV ink not curing can be solved. In addition, in consideration of the fact that the electricity used for drying the UV ink is generally required to consume twice as much power as the power to enter the ink drying apparatus, it is necessary to drive only the light source corresponding to the EUV printing area 51 So that the power consumption can be reduced.

On the other hand, when each of the plurality of print areas 50 on the printing paper 20 is located in the drying apparatus 200, the movement of the printing paper 20 is stopped for a preset time period and the ultraviolet printing area 51 is finished, the printing paper 20 is moved and the next printing area 50 is located in the drying apparatus 200, so that drying by the ultraviolet rays can be repeated. The control device 400 stops driving the light source 500 when the printing paper 20 moves and can drive the light source 500 when the movement of the printing paper 20 is stopped.

6 is a view illustrating a light source device of an ink drying apparatus according to another embodiment of the present invention. And Fig. 7 is a view showing printing paper including a printing area and a test printing area.

1, 6 and 7, the first light source plate 311 includes a first imaging device 610 and the second light source plate 321 further includes a second imaging device 620 can do.

The first drying device 210 may include a first light source state detecting device 211 and the second drying device 220 may include a second light source state detecting device.

The printing paper 20 may include a plurality of printing areas 50 and a test printing area 70 disposed in the middle of the plurality of printing areas 50. [

The test print area 70 may be formed with a test pattern 71 formed by transparent ultraviolet ink.

The printing apparatus 100 can form the test printing area 70 by forming the test pattern 71 on the printing area 50 of the printing paper 20 using the transparent ultraviolet ink.

The test pattern 71 may correspond to the first light source 511 and may correspond to the second light source 521. [ That is, the test pattern 71 is formed of a plurality of patterns, and each of the patterns can face each of the light sources 500. Accordingly, one light source of the plurality of light sources 500 can face one pattern 71 forming the test 1 on a one-to-one basis. Therefore, any one of the plurality of light sources 500 can irradiate the left outer line on one pattern facing the other.

The control device 400 may be configured such that the test print area 70 is disposed between the first and second drying devices 210 and 220. In other words, The first light source 511 may be driven and the second light source 521 may be in an undriven state by controlling the light source 500 in this case . Then, the second imaging device 620 is driven to photograph one surface of the test print area 70, specifically, the lower surface. Thereafter, the controller 400 controls the light source 500 so that the second light source 521 is driven and the first light source 511 is not driven. Then, the first image capturing device 610 can take an image of the test print area 70 and take a picture of the upper surface of the test print area 70, specifically the upper surface.

When the first light source 511 is driven, all of the first light sources 511 are driven, and when the second light source 521 is driven, all of the second light sources 521 are driven, All of the light sources 511 are not driven when the light source 511 is not driven and all of the second light sources 521 are not driven when the second light source 521 is not driven.

The test pattern 71 formed on the test print area 70 is displayed according to the driving of the first or second light source 511 or 521 and the first or second image pickup device 610 or 620 .

The first light source state detecting device 211 can check the state of the first light source 511 based on the first image from the first image capturing device 610 and the second light source state detecting device 221 can check the state of the first light source 511 based on the first image, The state of the second light source 521 can be checked based on the second image from the second image capturing apparatus 620. [

The first light source state detecting device 211 can detect a light source in which a failure occurs in the second light source 521 based on gradation comparison for each pixel of the first image and the previously stored image. In addition, the second light source state detecting device 221 can detect a light source in which a failure occurs in the first light source 511 based on gradation comparison for each pixel of the second image and the pre-stored image.

For example, when a part of the first light sources 511 is defective, the second light source state detecting device 221 detects an error on the area corresponding to the light source in which a failure occurs in comparing the gradation of the second image and the pre- Since the test pattern 71 is not displayed, a gradation difference equal to or less than a preset value occurs, and a light source in which a defect occurs can be detected based on such gradation difference.

8 is a view showing a heat source device.

Referring to FIGS. 1 and 8, the ink drying apparatus 10 according to another embodiment of the present invention may further include a heat source device 600. The heat source device 610 may include a heat source plate 610 and a plurality of heat sources 620.

The heat source plate 610 may have the same size as the light source plates 311 and 321 and the heat source plate 610 may have a size corresponding to the printing area 50, .

The plurality of heat sources 620 may be disposed on the heat source plate 610 so as to correspond to the arrangement of the plurality of light sources 500 described above.

That is, the plurality of heat sources 620 may be disposed on the heat source plate 610 in the same manner as the arrangement relationship of the plurality of light sources 500.

The printing paper 20 is dried by the drying device 200 and then the ink on the ultraviolet printing area 51 is dried and then placed on the heat source device 600 to be supplied to the small ultraviolet printing area 52 ) May be dried. Therefore, when the printing region 50 on the printing paper 20 is located in the drying apparatus 200, only the light source corresponding to the ultraviolet light printing region 51 of the light source 500 is driven, Only the heat source corresponding to the small ultraviolet ray printing region 52 in the heat source 620 is driven so that the power consumption of each of the drying apparatus 200 and the heat source apparatus 600 is minimized Ultraviolet rays can prevent the ink on the small ultraviolet ray printing area 52 and the ink on the ultraviolet ray printing area 51 by the heat source 620 from being deteriorated.

9 is a view showing a printing paper according to another embodiment. And Fig. 10 is a view showing stacked printing papers and test papers.

Referring to FIGS. 1, 9 and 10, the ink drying apparatus 10 according to another embodiment of the present invention may further include a cutting and laminating apparatus 700.

The cutting and laminating apparatus 700 can cut the printing paper 20 by dividing the printing paper 20 into the printing areas 50 and stack the printing paper 1 that has been cut. In this case, the test print area 70 is also cut to become the test strip 2, and the test strip 2 can be laminated between the print sheets 1. [

A frame pattern 72 may be formed on an edge region of the test print area 70 on the printing paper 20 and the frame pattern 72 may be printed with ordinary ink which can be visually recognized even from visible light.

According to the light source failure detection described above, when the controller 400 confirms that the light source 500 is detected to be defective from any of the first light source state detecting device 211 and the second light source state detecting device 221, The operation of the apparatus 100 can be stopped.

In this case, the printing paper 1 laminated next to the last stacked test paper 2 becomes the printing paper 1 which is damaged due to a poor drying condition due to a defective light source.

The printing paper 1 and the test paper 2 cut by the cutting and laminating apparatus 700 are laminated to each other as shown in Fig. 1 can easily be identified, so that the damaged print paper 1 can be easily distinguished.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10 Ink Drying Device
20 Printing Origin
30 rollers
50 Print area
60 Focus
70 Test Print Area
71 Test Patterns
72 frame pattern
51 pro-ultraviolet printing area
52 Small UV Printing Area
100 printing apparatus
110 second communication section
200 Drying device
210 First drying device
211 First light source state detecting device
220 Second drying device
221 Second light source state detecting device
300 light source device
310 first light source device
311 First light source plate
320 Second light source device
321 Second light source plate
400 control device
410 first communication section
420 ink state detecting device
430 Optical control unit
500 light source
501 driving light source
502 unactuated light source
510 optical output device
511 first light source
521 Second light source
520 Reflector
600 heat source device
610 Heat source plate
620 heat source
700 Cutting and laminating equipment

Claims (7)

A printing paper containing a printing area;
A printing device for forming the ink on the printing area;
A first light source device corresponding to one side of the printing paper and irradiating light to the one side surface;
A second light source device for irradiating light to the other side corresponding to the other side of the printing paper; And
And a control device controlling the first and second light source devices to adjust an irradiation area of light emitted from the first and second light source devices in accordance with properties of the ink in the printing area. The method according to claim 1,
Wherein the first light source device includes a first light source plate and a plurality of first light sources,
The second light source device includes a second light source plate and a plurality of second light sources,
Wherein the first and second light sources emit a left outer line,
Wherein the printing area includes a near ultraviolet printing area and a small ultraviolet printing area,
Wherein the first and second light sources are driven by an ink drying device 3. The method of claim 2,
Wherein the ink comprises a UV ink formed in the ultraviolet light printing area and cured by ultraviolet light and an ink formed in the small ultraviolet light printing area and not cured by ultraviolet light. The method of claim 3,
Wherein each of the plurality of first and second light sources includes a light source emission device and a reflector. 5. The method of claim 4,
Wherein the first light source plate includes a first imaging device,
The second light source plate includes a second imaging device,
Wherein the first drying device includes a first light source state detecting device,
The second drying device includes a second light source state detecting device,
Wherein the first light source is in the driving state and the second light source is in the non-driving state, the second imaging device captures the test print region,
Wherein the first light source is in a driving state and the first light source is in an undriven state, the first imaging device captures the test printing area,
The first light source state detecting device checks the state of the first light source based on the first image from the first image sensing device,
And the second light source state detecting device checks the state of the second light source based on the second image from the second image capturing device. 6. The method of claim 5,
Wherein the control device includes an ink state detection device and a light control device,
Wherein the ink state detecting device is configured to distinguish the ultraviolet light printing area and the small ultraviolet light printing area based on property information of ink on the printing area received from the printing device,
Wherein the light control device controls the plurality of first and second light sources based on the result of the division of the ultraviolet light printing area and the small ultraviolet light printing area. The method according to claim 6,
Wherein the driving light source of the plurality of first light sources faces the driving light source of the second light source,
And an un-driven light source of the plurality of first light sources faces the un-driven light source of the second light source.

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