JP4045423B2 - Image writing apparatus and image writing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image writing apparatus for transferring and writing a displayed image on an optical transfer type image writing medium.
[0002]
[Prior art]
For example, in an image output device that displays a document or picture created by a personal computer, paper is generally used as a medium that can be viewed by holding many pieces of the displayed information. Is printed out on paper by a printer or the like. Alternatively, a method of taking a photograph is also used in part, and there is a method of directly printing on a photographic paper. In any of the methods conventionally used, printing or development on a medium takes a certain amount of time, causing thought to be interrupted and reducing the efficiency of creative work. In view of this, an image writing medium such as a light transfer type cholesteric liquid crystal capable of instantaneously transferring an image displayed on a display screen of a display device such as a CRT or a liquid crystal display device has been developed.
[0003]
This optical transfer type image writing medium has a photosensitive layer inside, and the electric field is changed by a change in the potential of the photosensitive layer due to light incident from the outside, and the change in the electric field causes a phase transition of cholesteric liquid crystal or the like. By doing so, an image is written. As the incident light, light emitted from the display device can be used, and an image of the display device can be written on the light transfer type image writing medium. Therefore, the display device can be used as a writing device for the optical transfer type image writing medium. Note that the written image is held as it is even when the electric field disappears, so that the image can be continuously displayed without a power source. Therefore, the image can be referred to at any time after the image is written on the optical transfer type image writing medium, like paper.
[0004]
FIG. 13 is an explanatory diagram of an example of a conventional image writing apparatus. In the figure, 51 is an image writing device, 52 is a display unit, and 53 is a light transfer type image writing medium. The conventional image writing device 51 includes a display unit 52 having a display area substantially equal to the writable area of the light transfer type image writing medium 53. When the image is transferred, the image to be transferred is displayed on the display unit 52 and the display light is irradiated to the light transfer type image writing medium 53. Then, a predetermined writing voltage is applied to the light transfer type image writing medium 53 to generate an electric field therein, and an image is written by a change in the electric field due to the irradiation light from the display unit 52. In this way, the image displayed on the display unit 52 is transferred to the light transfer type image writing medium 53.
[0005]
In the conventional image writing apparatus, as shown in FIG. 13, a light transfer type image writing medium 53 is arranged in close contact with or close to the display unit 52 to transfer an image. In this case, the display quality (resolution) in the light transfer type image writing medium 53 depends on the quality (resolution) of the display unit 52 used for writing an image. That is, when the resolution of the display unit 52 is low, an image having a resolution higher than that of the display unit 52 is not obtained on the optical transfer type image writing medium 53. Therefore, when a high-resolution image is written on the optical transfer image writing medium 53, the display unit 52 must have a high resolution. However, a high-resolution display device is generally expensive. In particular, in the case of a large screen such as the display area of a light transfer type image writing medium as in the above example, a high-resolution display device used as the display unit 52 is It is very expensive. In addition, although a low-resolution display device is relatively inexpensive even on a large screen, there is a problem that an image cannot be transferred at a higher resolution than the display device as described above.
[0006]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described circumstances, and provides an inexpensive image writing apparatus capable of writing even a relatively large high-resolution image, and writes a high-resolution image with such an inexpensive apparatus. The object is to provide a possible image writing method.
[0007]
[Means for Solving the Problems]
The present invention relates to an image to be transferred by transferring an image to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer by a display means having a display area smaller than a region where the image of the light transfer type image writing medium can be written. In the writing apparatus and the image writing method, an image to be transferred is divided into one or a plurality of partial areas obtained by dividing the writable area of the image on the optical transfer type image writing medium by the display unit, and the divided image is The image is displayed on the display means and transferred to the optical transfer type image writing medium. This operation is performed on each divided image, and the image is written on the optical transfer type image writing medium by multiple times of transfer. It is characterized by. By performing transfer to the light transfer type image writing medium for each of the divided images, the display means may have a display area smaller than that of the light transfer type image writing medium. The display means having a small display area is inexpensive even in a high-resolution display device, and an image writing device capable of writing a high-resolution image can be configured at low cost.
[0008]
According to the present invention, an image is transferred to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer by a display means having a display area smaller than a writable area of the image on the light transfer type image writing medium. In the image writing device and the image writing method, optical means capable of changing the resolution of the image displayed on the display means to the writing resolution, and the optical transfer type image writing by the display means according to the writing resolution at the time of writing the image. An image is divided into one or a plurality of partial areas obtained by dividing an area in which an image of a medium can be written, and displayed on the display unit as necessary, and the image displayed on the display unit by the optical unit is displayed on the writing resolution. If you want to transfer a high-resolution image, scale it up or down as needed An image by performing a plurality of times of transfer for each image and is characterized in that writing to the optical transfer image writing medium. In this way, the image is enlarged or reduced as necessary to achieve the writing resolution by the optical means. For example, when the resolution is low, the image displayed on the display means is written in a wide area to obtain the low resolution image. Write. In addition, when writing at high resolution, the image is divided into one or more partial areas of the optical transfer type image writing medium, and each divided image is written into a narrow area so that the image at high resolution can be written. Write. As a result, even if the resolution of the display device is constant, the resolution written on the optical transfer type image writing medium by the optical means can be changed, and the image can be written at a desired resolution. Therefore, even when a high-resolution image is written, an inexpensive display means having a small display area can be used, and an inexpensive image writing apparatus can be provided. In addition, since the area on which an image is written by one transfer varies depending on the resolution, when writing a low-resolution image, the number of transfers can be reduced and writing can be completed in a short time.
[0009]
Furthermore, the present invention relates to an image writing apparatus and an image writing method for transferring an image onto a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer by a display means and writing the image. The optical means that can be enlarged or reduced is used, and the optical means is controlled according to the writing resolution corresponding to each image to be transferred, and the image displayed on the display means is appropriately enlarged so as to have the writing resolution. Alternatively, the image is transferred after being reduced, and a plurality of images with different resolutions can be transferred onto one optical transfer type image writing medium. According to such a configuration, even when the resolution of the display device is constant as described above, the resolution written to the optical transfer type image writing medium can be changed by enlarging or reducing the image displayed by the optical means. The image can be written at a desired resolution. Therefore, even when a high-resolution image is written, an inexpensive display means having a small display area can be used, and an inexpensive image writing apparatus can be provided. Further, conventionally, an image can be transferred only with a uniform resolution over the entire surface of the light transfer type image writing medium. However, according to the configuration of the present invention, one light transfer type image writing medium is used. It is possible to transfer an image having a different resolution for each region.
[0010]
In transferring an image, a voltage is applied to the light transfer type image writing medium only to one or a plurality of partial regions to which the image on the light transfer type image writing medium is transferred. be able to. In addition, when performing writing a plurality of times on the optical transfer type image writing medium, the display means is moved by the moving means on the optical transfer type image writing medium, and each image is transferred. can do. Alternatively, it is possible to provide a medium moving means and move the optical transfer type image writing medium to transfer each image. Alternatively, an optical path changing unit that optically changes an optical path from the display unit to the optical transfer type image writing medium can be provided, and transfer can be performed for each divided image by changing the optical path by the optical path changing unit. Further, by providing a plurality of display means, the divided images can be transferred to the optical transfer writing medium for each of the divided images.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an explanatory diagram of a first embodiment of the present invention. In the figure, 1 is an image writing device, 2 is an optical transfer type image writing medium, 11 is a control unit, 12 is a storage unit, and 13 is a display unit. The image writing apparatus 1 is provided with a display unit 13 having a display area smaller than a region in which an image of the light transfer type image writing medium 2 can be written. An image to be written to the optical transfer image writing medium 2 is stored in the storage unit 12. This image can be received from the outside via, for example, an interface (not shown).
[0012]
The control unit 11 can display the image to be written stored in the storage unit 12 by the display unit 13, and divide the image into areas where the image can be written on the optical transfer type image writing medium 2. The divided image is displayed on the display unit 13 and the divided image is written on a part of the light transfer type image writing medium 2. By repeating the writing of the divided image onto the optical transfer type image writing medium 2 by displaying the divided image as described above, the image can be written into a desired area of the optical transfer type image writing medium 2. When displaying a divided image on the display unit 13, an image larger than a partial area to be partially written on the light transfer type image writing medium 2 is displayed and when an image is written to an adjacent partial area. It is preferable to control to display partially overlapping images.
[0013]
As described above, the display unit 13 has a smaller display area than the area in which the image of the light transfer type image writing medium 2 can be written. Further, it is preferable that the image can be displayed slightly larger than a partially writable partial area of the light transfer type image writing medium 2. Since the display unit 13 can reduce the display area, it can be configured at low cost even when a high-resolution display device is used. Conversely, even if an inexpensive display device is used, a high-resolution image can be written on the optical transfer image writing medium 2.
[0014]
FIG. 2 is a plan view of an example of an optical transfer type image writing medium used in the present invention, and FIG. 3 is a sectional view of the same. In the figure, 21 and 26 are base substrates, 22 and 25 are electric field application layers, 23 is an image forming layer, 24 is a photosensitive layer, 27 is a contact electrode, 28 is a common electrode, 29 is a separation portion, and 30 is a partial writing region. is there. Note that FIG. 2A shows an example in which writing can be performed by dividing into six strips, and FIG. 2B shows an example in which writing can be performed by dividing into eight two-dimensional shapes. A divided writable area is indicated by a broken line. In the example shown in FIG. 1, the case where the optical transfer type image writing medium shown in FIG. 2A is used is illustrated. 3A is a cross-sectional view taken along the line aa, and FIG. 3B is a cross-sectional view taken along the line bb.
[0015]
For example, as shown in FIG. 3, the light transfer type image writing medium is configured such that electric field applying layers 22 and 25 are arranged above and below an image forming layer 23, and these are sandwiched between base substrates 21 and 26. The image forming layer 23 is composed of, for example, one or more cholesteric liquid crystal layers. For example, when a medium capable of color display is configured, three or more cholesteric liquid crystal layers having different optical characteristics and driving characteristics are provided. Even in the case of a medium for monochrome display, not only one layer but also a plurality of cholesteric liquid crystal layers may be provided. In some cases, an interlayer film is formed between the layers. In the image forming layer 23, phase transition occurs according to the electric field strength, and an image is written thereby. An image once written after the occurrence of phase transition maintains its phase state even after the electric field is extinguished, so that the image can be continuously displayed without power supply after the image writing.
[0016]
In this example, a photosensitive layer 24 is provided between the image forming layer 23 and the electric field applying layer 25. The photosensitive layer 24 generates an electromotive force according to incident light, changes the electric field generated by the electric field applying layers 22 and 25 locally, causes a phase transition in the image forming layer 23, and writes an image. Can do. The layer position for forming the photosensitive layer 24 is not limited to this example, and is provided at an arbitrary position between the base substrates 21 and 26.
[0017]
The electric field applying layers 22 and 25 are made of a transparent conductive layer such as ITO (Indium Tin Oxide). Note that the electric field applying layer 25 may be formed of an opaque conductive layer when writing by image light irradiation from the back surface is not performed.
[0018]
In this example, the electric field application layer 22 is electrically separated by the separation unit 29, and the image forming layer 23 is also separated by the separation unit 29. As a result, the separated regions of the electric field applying layer 22 and the image forming layer 23 become partial writing regions 30, respectively. In FIG. 2, the separation unit 29 is indicated by a broken line, and each area divided by the broken line is a partial writing area 30 in which an image can be partially written. That is, since the electric field can be partially applied to the partial writing area 30 by the separated electric field applying layer 22, it is possible to write an image without affecting other areas. The image writing apparatus 1 shown in FIG. 1 performs image writing for each partial writing area 30.
[0019]
A contact electrode 17 for electrical connection with each separated electric field application layer 22 and a common electrode 18 for electrical connection with the commonly formed electric field application layer 25 are provided. It has been. The selection of the partial write region 30 is determined by which contact electrode 17 is used to apply a voltage between the electric field application layer 22 and the electric field application layer 25.
[0020]
In the example illustrated in FIG. 3, the electric field application layer 22 and the image forming layer 23 are separated for each partial writing region 3 by the separation unit 29, but the present invention is not limited thereto, for example, only the electric field application layer 22 or the electric field application layer 25. Alternatively, the electric field application layers 22 and 25 may be separated, or the electric field application layers 22 and 25 and the image forming layer 23 may be separated. Alternatively, the electric field application layers 22 and 25 are made common, the image forming layer 23 is separated for each partial writing region 30 to have different drive characteristics, and the voltage applied to the electric field application layers 22 and 25 when writing an image. It is also possible to adopt a configuration that enables image writing to each partial writing area 30 by controlling the.
[0021]
FIG. 4 is a flowchart showing an example of the image writing operation according to the first embodiment of the present invention. Using the image writing apparatus 1 shown in the first embodiment of the present invention shown in FIG. 1 described above, for example, a procedure for writing an image on the optical transfer type image writing medium 2 shown in FIGS. Is shown in FIG. In S 61, an image to be written on the light transfer type image writing medium 2 is acquired and stored in the storage unit 12. In S <b> 62, the image is divided according to the size of the partial writing area 30 of the optical transfer type image writing medium 2.
[0022]
In S63, the display unit 13 of the image writing apparatus 1 is aligned with the partial writing area 30 in which the image of the optical transfer type image writing medium 2 is to be written. In S64, the control unit 11 of the image writing device 1 causes the display unit 13 to display an image to be written in the partial writing area 30 among the images divided in S62. In S65, the control unit 11 corresponds to the partial writing area 30. The electric field applying layer 22 to be selected is selected, a writing signal (voltage) is applied to the electric field applying layer 22 and the common electric field applying layer 25 in S66, and the image displayed on the display unit 13 is transferred to the partial writing region 30. Write.
[0023]
In S67, all the images to be written are transferred to the optical transfer image writing medium, and it is determined whether or not the writing is completed. If there is an untransferred part, the process returns to S63 and the next partial writing area The transfer of the divided image to 30 is repeatedly performed. When all the images to be written are written, the writing process is terminated.
[0024]
In this way, by sequentially writing images divided for each partial writing area 30 of the optical transfer type image writing medium 2, even when a high resolution image is written, for example, an inexpensive display device having a small display area is used. You can write an image.
[0025]
FIG. 5 is an explanatory diagram of an example of a method for transporting and wiring an optical transfer type image writing medium. In the figure, 41 is a transport tray frame, 42 is a medium fixing hook, 43 is a back contact, 44 is a front contact, 45 is an electrode selection switch, and 46 is a voltage application unit. As described above, in order to perform image writing on the light transfer type image writing medium 2 a plurality of times, the light transfer type image writing medium 2 and the image writing device 1 are relatively moved to perform alignment, It is necessary to select the electric field application layer 22 corresponding to the partial writing area 30 for writing an image on the transfer type image writing medium 2 and apply a voltage. FIG. 5 shows an example of the configuration for that purpose. 5A shows an example in which the light transfer type image writing medium shown in FIG. 2A is used, and FIG. 5B shows the light transfer type image writing medium shown in FIG. An example in the case of using is shown.
[0026]
In the example shown in FIG. 5, a plurality of medium fixing hooks 42 are provided on the transport tray frame 41, and the optical transfer type image writing medium 2 is placed on the transport tray frame 41 and fixed by the medium fixing hook 42 and positioned. It is carried out. In addition, the common electrode 28 of the electric field application layer 25 and the back contact 43 are electrically connected by placing the light transfer type image writing medium 2 on the transport tray frame 41. Further, the surface contact 44 is electrically connected to the contact electrode 27 of each electric field application layer 22. The surface contact 44 may be integrated with the medium fixing hook 42.
[0027]
Each surface contact 44 is connected to a voltage application unit 46 via an electrode selection switch 45. The electrode selection switch 45 operates according to the control from the control unit 11 and is controlled such that the electrode selection switch 45 corresponding to the electric field application layer 22 to which a voltage is applied to write an image is conducted. Further, the back contact 43 is also connected to the voltage application unit 46. The voltage application unit 46 applies a voltage to the electric field application layer 22 through the back contact 43 and the electric field application layer 25 through the electrode selection switch 45 and the front contact 44 according to the control from the control unit 12. An electric field is generated to enable image writing.
[0028]
As described above, since the image writing to the optical transfer image writing medium 2 is performed a plurality of times, it is necessary to relatively move the optical transfer image writing medium 2 and the image writing apparatus 1. For example, in the configuration in which the image writing device 1 is moved, the image transfer device 1 is moved over the light transfer image writing medium 2 in a state where the light transfer image writing medium 2 is fixed and aligned as shown in FIG. Just write the image while moving it. The image writing apparatus 1 may be moved by moving at least the display unit 13.
[0029]
In the configuration in which the optical transfer type image writing medium 2 is moved, the image writing apparatus 1 is fixed, the optical transfer type image writing medium 2 is moved together with the transport tray frame 41, and the alignment with the image writing apparatus 1 is performed. Just go and write the image. Of course, you may comprise so that both can be moved.
[0030]
The movement and alignment of the image writing device 1 or the transport tray frame 41 may be performed automatically or manually. FIG. 6 is an explanatory diagram of one aspect at the time of image writing in the first embodiment of the present invention. In the figure, 31 is an electrode. In this example, an example is shown in which an image is written from the surface side of the optical transfer type image writing medium shown in FIG. For example, as shown in FIG. 6A, the image writing apparatus 1 is provided with an electrode 31 that is electrically connected to a contact electrode 27 of an optical transfer type image writing medium and supplies a voltage. In this example, two electrodes are provided, and one of the electrodes is electrically connected to the contact electrode 27 corresponding to the partial writing region 30 in accordance with the position of writing the image on the optical transfer type image writing medium. It is configured to be connected to.
[0031]
When an image is written on the optical transfer type image writing medium, the image writing apparatus 1 or its controller is electrically connected to the common electrode 28. Then, as shown in FIG. 6B, the display area of the display unit 13 of the image writing device 3 faces the surface of the optical transfer type image writing medium, and the display area and the partial writing area 30 for writing the image are aligned. At the same time, the electrode 31 of the image writing apparatus 1 and the contact electrode 27 of the optical transfer type image writing medium are electrically connected. For example, as shown in FIG. 6B, the two electrodes 31 of the image writing apparatus 1 are connected to the contact electrode 27 by using the left electrode 31 when writing an image in the left partial writing region 30. When an image is written in the right partial writing area 30, the right electrode 31 may be used to connect to the contact electrode 27.
[0032]
In this state, an image to be written is displayed on the display unit 13 of the image writing apparatus 1 and a voltage is applied to the contact electrode 27 and the common electrode 28 to generate an electric field in the optical transfer type image writing medium. As a result, an image can be transferred to one partial writing area 30. Such a writing operation may be performed once or several times on a necessary area.
[0033]
When the display unit 13 of the image writing apparatus 1 has a display area large enough to cover the plurality of partial writing areas 30, it is possible to simultaneously write images in the plurality of partial writing areas 30. . In this case, it is necessary to apply a voltage to the contact electrode 27 corresponding to each partial write region 30. Conversely, even if the display area of the display unit 13 is large, a part of the displayed image can be written only in the partial writing region 30 to which a voltage is applied from the contact electrode 27.
[0034]
In the example shown in FIG. 6, only one display unit 13 is provided, but a plurality of display units 13 may be provided. As a result, the number of times of image transfer can be reduced. However, unlike the case where the display unit 13 having a large display area as described above is used, when an image is written using a plurality of display units 13, a non-display area is provided around each display unit 13. Therefore, if the display units 13 are arranged continuously, interference due to the non-display area may occur. As a configuration for preventing this, a configuration as shown in FIG. 7 is conceivable.
[0035]
FIG. 7 is an explanatory diagram of another aspect at the time of image writing in the first embodiment of the present invention. In this example, as shown in FIG. 7A, an example in which two display portions 13 are provided is shown. The two display units 13 are arranged in a zigzag manner in this example, thereby preventing interference caused by non-display areas around each display unit 13.
[0036]
When the image writing apparatus 1 shown in FIG. 7 (A) is used to write an image on the optical transfer type image writing medium as shown in FIG. 2 (B), as shown in FIG. 7 (B). First, in (1), using the display unit 13 at the lower left of the image writing apparatus 1, the image is transferred to the partial writing area 30 at the top of the left column of the light transfer type image writing medium. At this time, only one of the two display units 13 is used.
[0037]
For the subsequent three times (2), (3), and (4), the image is simultaneously transferred to the two partial write areas 30 by using both of the two display sections 13. In FIG. 7B, the state in which the image is transferred by the image writing apparatus 1 for the time of (2) is shown by a solid line, and the second from the top of the right column and the top of the left column of the optical transfer writing medium. The image is transferred to the partial writing area 30. Finally, in (5), the image is transferred to the lowermost partial writing area 30 in the right column of the optical transfer type image writing medium using the display unit 13 at the upper right of the image writing apparatus 1. In this manner, an image can be written to the eight partial writing areas 30 of the optical transfer type image writing medium by five writing operations.
[0038]
FIG. 8 is an explanatory diagram of the second embodiment of the present invention. In the figure, the same parts as those in FIG. Reference numeral 14 denotes an optical system. In this example, an example in which the optical system 14 is added is shown. The optical system 14 is composed of, for example, one or a plurality of lens systems, and enlarges or reduces the image displayed on the display unit 13 according to the writing resolution when writing an image to the optical transfer image writing medium 2. Then, the image is transferred to the light transfer type image writing medium 2.
[0039]
The control unit 11 divides the image as necessary according to the writing resolution to the optical transfer type image writing medium 2 and sequentially displays the image on the display unit 13. Further, the optical system 14 is controlled to control the magnification and the like so that the displayed image is written to the light transfer type image writing medium 2 at the writing resolution.
[0040]
For example, in the example shown in FIG. 8, the images are collectively written in the 1/3 area of the optical transfer image writing medium 2. For this purpose, the control unit 11 divides the image to be written stored in the storage unit 12 into three, and displays the divided images on the display unit 13 one by one. At this time, resolution conversion may be necessary to match the divided image to the display area of the display unit 13. The optical system 14 adjusts the magnification so that the image displayed on the display unit 13 is transferred to a 1/3 region of the optical transfer image writing medium 2. At this time, focus adjustment may be necessary. Then, the image displayed on the display unit 13 may be transferred to the optical transfer image writing medium 2 and written.
[0041]
FIG. 9 is an explanatory diagram of a mode of transfer writing of images at low resolution and high resolution in the second embodiment of the present invention. The example shown in FIG. 9A shows a case where a low resolution image is written. That is, the display unit 13 displays an image to be written on the entire surface of the light transfer type image writing medium 2, and the optical system is configured to transfer the image displayed on the display unit 13 to the entire surface of the light transfer type image writing medium 2. 14 is adjusted. As a result, the image displayed on the display unit 13 is transferred and written onto the entire optical transfer image writing medium 2. At this time, the resolution of the display unit 13 does not change and the area to be written increases, so the writing resolution relatively decreases. By performing transfer writing in this way, an image that needs only a low resolution can be written only a small number of times (in this example, once). Therefore, writing in a short time is possible.
[0042]
The example shown in FIG. 9B shows a case where an image is written at a high resolution. In this example, an image is written to 1/6 of the optical transfer type image writing medium 2 by one writing. Show. That is, the image to be displayed is divided, and the divided image to be written to 1/6 of the optical transfer type image writing medium 2 is displayed on the display unit 13 and the image displayed on the display unit 13 is written to the optical transfer type image. The optical system 14 is adjusted so that the image is transferred to 1/6 of the medium 2. As a result, the image displayed on the display unit 13 is transferred to 1/6 area of the optical transfer type image writing medium 2 and written in this area. At this time, the resolution of the display unit 13 does not change, and the writing area is reduced, so that the writing resolution is relatively high. For an image that needs to be written at a high resolution, the image to be written is divided in this way, and transfer writing is repeated for each divided image. As a result, for example, even if the resolution of the display unit 13 is low, it is possible to write an image with a higher writing resolution.
[0043]
Even when an image is written on the optical transfer type image writing medium 2 using the same display unit 13 as in the example shown in FIG. 8 and the examples shown in FIGS. By dividing the image to be displayed and adjusting the optical system 14, the image can be transferred and written in accordance with the writing resolution. Although not shown, in the case of using the six-divided optical transfer type image writing medium 2 as shown in FIGS. 8 and 9, it is possible to transfer and write an image for every ½ area. Even when the number of divisions of the optical transfer type image writing medium 2 is different from this example, it can be easily handled by dividing the image and adjusting the optical system 14. For example, in the case of 6 divisions as shown in FIG. 2 (B), image transfer writing at three resolutions of writing at high resolution 6 times, writing at medium resolution 2 times, and writing at low resolution 1 time. Is possible.
[0044]
Of course, regardless of the writing resolution, writing at an arbitrary resolution is possible by adjusting the size of the image displayed on the display unit 13 and the optical unit 14. For example, when writing at a slightly lower resolution than the example shown in FIG. 8, the divided image to be written on the display unit 13 is displayed in a smaller size, or the surrounding portion is also displayed and displayed by the optical unit 14. Adjustment may be made so that the display area of the section 13 is transferred to a wider area than the writing area of the light transfer type image writing medium 2. As described in FIGS. 2 and 3, since the data is actually transferred and written for each division unit of the electric field application layer 22, the area around the writing area is not written and the division displayed on the display unit 13 is smaller. Only the image portion will be written. Even if the size of the area to be written is the same, since the size of the image displayed on the display unit 13 is small, the resolution can be somewhat reduced. If such a method is used, writing at an arbitrary resolution is possible.
[0045]
FIG. 10 is a flowchart showing an example of the image writing operation in the second embodiment of the present invention. In S 71, an image to be written on the light transfer type image writing medium 2 is acquired and stored in the storage unit 12. In S72, the image is divided as necessary according to the writing resolution for writing the image on the optical transfer type image writing medium 2. For example, as shown in FIG. 9A, when images are transferred and written all over the optical transfer type image writing medium 2, it is not necessary to divide the images. Also, as shown in FIG. 8, if writing is performed in three equal parts, the image is divided into three parts, and if writing is performed in six equal parts as shown in FIG. 9B, the image is divided into six parts. It will be. Of course, the division position is determined according to the resolution at the time of writing.
[0046]
In step S73, the display unit 13 of the image writing apparatus 1 is aligned with the area where the image of the optical transfer type image writing medium 2 is to be written. At the same time, the optical system 14 is adjusted so that the image displayed on the display unit 13 is transferred to the light transfer type image writing medium 2 according to the writing resolution. In step S74, the control unit 11 of the image writing apparatus 1 displays one of the images divided in step S72 on the display unit 13, and in step S75, the control unit 11 stores the divided image in one or more partial writing areas 30. The corresponding electric field application layer 22 is selected, a write signal (voltage) is applied to the electric field application layer 22 and the common electric field application layer 25 in S76, and one or more partial writings are performed on the image displayed on the display unit 13. Transfer and write to area 30.
[0047]
In S77, all the images to be written are transferred to the optical transfer type image writing medium, and it is determined whether or not the writing is completed. If there is an untransferred portion, the process returns to S73 and the next one or more The transfer writing of the divided image to the partial writing area 30 is repeatedly performed. When all the images to be written are written, the writing process is terminated.
[0048]
In this manner, an image can be written at an arbitrary writing resolution by one or a plurality of transfer writings on the light transfer type image writing medium 2. In this case, since it is not necessary to use a large-screen display device as the display unit 13, an inexpensive image writing device can be provided.
[0049]
Also in the second embodiment, as described above, in order to write an image on the light transfer type image writing medium 2 a plurality of times, the light transfer type image writing medium 2 and the image writing device 1 are connected. It is necessary to relatively move, align, adjust the optical system 14, and select the electric field application layer 22 corresponding to the partial writing region 30 for writing an image on the optical transfer type image writing medium 2 and apply a voltage. is there. As a configuration for that, for example, the configuration shown in FIG. 5 can be used. For example, when writing to a plurality of partial write regions 30, it is possible to respond by simply setting a plurality of electrode selection switches 45 in a conductive state.
[0050]
When writing an image, the conveyance tray frame 41 is fixed and the display unit 13 and the optical system 14 of the image writing apparatus 1 are moved, or the image writing apparatus 1 is fixed and the conveyance tray is fixed. This can be done by moving the frame 41.
[0051]
In addition to this, for example, when the optical system 14 includes a plurality of mirrors, the writing position can be controlled only by the movement control of the mirror. It is possible to cope with only. FIG. 11 is an explanatory diagram of one aspect at the time of image writing in the second embodiment of the present invention. In the figure, reference numerals 15 and 16 denote optical path changing mirrors. In the example shown in FIG. 11, two optical path changing mirrors 15 and 16 are provided in the optical path from the display unit 13 to the optical transfer type image writing medium 2. For example, when an image is transferred to the partial writing area 30 on the left side of the optical transfer type image writing medium in the drawing, the image can be transferred by arranging the optical path changing mirrors 15 and 16 at the positions indicated by the solid lines. it can. Further, when an image is transferred to the partial writing area 30 on the right side in the drawing, the image can be transferred by switching the optical path changing mirrors 15 and 16 to the positions indicated by the broken lines.
[0052]
The optical path changing mirrors 15 and 16 are switched, for example, by rotating two mirrors or by providing two optical path changing mirrors 15 and rotating only the optical path changing mirror 16 for switching. May be.
[0053]
With the configuration shown in FIG. 11, the partial writing area 30 to which the image is transferred can be changed only by moving the optical system (mirror) without moving the display unit 13 or the like. Further, the distance from the light transfer type image writing medium 2 to the display unit 13 can be shortened, and the space required for transferring the image can be reduced.
[0054]
The arrangement and the number of mirrors are not limited to the example shown in FIG. 11, and can be provided according to the positional relationship between the display unit 13 and the optical transfer type image writing medium 2, the partial writing region 30, and the like. . For example, it is also possible to arrange the display unit 13 on the side of the optical transfer image writing medium 2 and change the optical path with a mirror. Furthermore, not only a mirror but another optical element can be used.
[0055]
FIG. 12 is an explanatory diagram of the third embodiment of the present invention. The reference numerals in the figure are the same as those in FIGS. The configuration of the third embodiment is the same as that of the second embodiment described above. In the second embodiment described above, one image is divided according to the writing resolution and transferred and written to the optical transfer type image writing medium 2. If a configuration similar to that of the second embodiment is used, it is possible to write a plurality of images having different resolutions for each portion of the optical transfer type image writing medium 2, and such an example is shown in FIG. ing.
[0056]
The portion shown in FIG. 12A shows an example in which an image is transferred to 1/3 of the light transfer type image writing medium 2 and written, as in FIG. 12B shows an example in which an image is transferred to 1/6 of the optical transfer type image writing medium 2 and written, as in FIG. 9B. In this case, an image is written with a higher resolution than in the case shown in FIG. Further, in the part shown in FIG. 12C, an example is shown in which an image is transferred to half of the optical transfer type image writing medium 2 and written. In this case, an image is written at a lower resolution than in the case shown in FIG.
[0057]
For example, in a POP display or the like installed at a store such as a store, there are a large character portion and a small character portion describing detailed contents. When such an image is displayed, the resolution of the large portion of the character is not necessary, so the image of the portion may be transferred and written in a large area with a low resolution. In addition, since a small detailed portion of a character requires high resolution, for example, transfer and writing with high resolution may be performed as shown in FIG. In this way, a plurality of images can be transferred and written to the optical transfer image writing medium 2 with the writing resolution corresponding to each application using the same display unit 13.
[0058]
Note that, in combination with the second embodiment described above, even when an image is written in a large area, the image can be divided and written when a certain level of resolution is required.
[0059]
【The invention's effect】
As is clear from the above description, according to the present invention, an excellent effect that has not been achieved in the past, that a high-resolution image can be written in a relatively wide writing area by an inexpensive image writing apparatus. It is what you play. In addition, there is an effect that application to various uses is possible, such as writing with different resolutions as required.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a first embodiment of the present invention.
FIG. 2 is a plan view of an example of an optical transfer type image writing medium used in the present invention.
FIG. 3 is a cross-sectional view of an example of an optical transfer type image writing medium used in the present invention.
FIG. 4 is a flowchart illustrating an example of an image writing operation according to the first embodiment of the present invention.
FIG. 5 is an explanatory diagram showing an example of a method for transporting and wiring an optical transfer type image writing medium.
FIG. 6 is an explanatory diagram of an aspect at the time of image writing in the first embodiment of the present invention.
FIG. 7 is an explanatory diagram of another aspect at the time of image writing in the first embodiment of the present invention.
FIG. 8 is an explanatory diagram of a second embodiment of the present invention.
FIG. 9 is an explanatory diagram of a mode of transfer writing of images at low resolution and high resolution in the second embodiment of the present invention.
FIG. 10 is a flowchart illustrating an example of an image writing operation according to the second embodiment of the present invention.
FIG. 11 is an explanatory diagram of an aspect at the time of image writing according to the second embodiment of the present invention.
FIG. 12 is an explanatory diagram of a third embodiment of the present invention.
FIG. 13 is an explanatory diagram of an example of a conventional image writing apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image writing apparatus, 2 ... Optical transfer type image writing medium, 11 ... Control part, 12 ... Memory | storage part, 13 ... Display part, 14 ... Optical system, 15 and 16 are optical path change mirrors, 21, 26 ... Base substrate, 22, 25 ... Electric field application layer, 23 ... Image forming layer, 24 ... Photosensitive layer, 27 ... Contact electrode, 28 ... Common electrode, 29 ... Separation part, 30 ... Partial writing area, 31: Electrode, 41 ... Transport tray frame, 42 ... medium fixing hook, 43 ... back contact, 44 ... front contact, 45 ... electrode selection switch, 46 ... voltage application unit, 51 ... image writing device, 52 ... display unit, 53 ... light transfer type image writing medium.

Claims (16)

  An image writing apparatus for transferring and writing an image to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer, wherein the light has a display area smaller than a writable area of the light transfer type image writing medium. Display means for displaying an image to be transferred to one or a plurality of partial areas into which an image writable area of the transfer type image writing medium is divided, and one or a plurality of parts for writing the transferred image to the optical transfer type image writing medium An image writing method comprising: a control unit that divides the image into regions and causes the display unit to display the image, and writing the image onto the optical transfer type image writing medium by performing transfer a plurality of times for each divided image. apparatus.   An image writing apparatus for transferring and writing an image to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer, wherein the light has a display area smaller than a writable area of the light transfer type image writing medium. Necessary for each of one or a plurality of partial areas obtained by dividing the area on which the image of the optical transfer type image writing medium can be written according to the writing resolution when writing the image, and display means for displaying the image to be transferred to the transfer type image writing medium Control means for dividing the image according to the display means and displaying on the display means, and optical means capable of enlarging or reducing the image displayed on the display means in accordance with the writing resolution. When transferring, the image is written to the optical transfer type image writing medium by performing transfer a plurality of times for each divided image. Image writing device, characterized in that.   In an image writing apparatus for transferring and writing an image to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer, display means for displaying an image to be transferred to the light transfer type image writing medium, and display on the display means An optical unit capable of enlarging or reducing an image in accordance with the writing resolution, and a control unit for controlling the optical unit in accordance with the writing resolution, which is different for one optical transfer type image writing medium An image writing apparatus capable of transferring a plurality of resolution images.   4. The control unit according to claim 1, wherein the control unit performs control so that a voltage is applied to one or a plurality of partial regions to which an image on the optical transfer type image writing medium is transferred. 2. An image writing apparatus according to item 1.   2. The apparatus according to claim 1, further comprising a moving unit that moves at least the display unit, and transferring the divided image by moving the display unit on the optical transfer type image writing medium. The image writing device according to claim 4.   2. The apparatus according to claim 1, further comprising medium moving means for moving the optical transfer type image writing medium, wherein the divided image is transferred by moving the optical transfer type image writing medium. The image writing apparatus according to claim 4.   Furthermore, it has an optical path changing means for optically changing an optical path from the display means to the optical transfer type image writing medium, and the optical path is changed by the optical path changing means to perform transfer for each divided image. The image writing apparatus according to claim 1, wherein the image writing apparatus is an image writing apparatus.   8. The image writing apparatus according to claim 1, wherein the image writing apparatus includes a plurality of the display units and is capable of transferring a plurality of divided images to the optical transfer writing medium.   In an image writing method in which an image is transferred to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer by a display means having a display area smaller than a writable area of the light transfer type image writing medium and written. An image to be transferred is divided into one or a plurality of partial areas obtained by dividing an area in which an image of the optical transfer type image writing medium can be written by the display means, and the divided images are displayed and transferred on the display means. The image writing method is characterized in that the control means performs control to write the image onto the optical transfer type image writing medium by performing transfer a plurality of times.   In an image writing method in which an image is transferred to a light transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer by a display means having a display area smaller than a writable area of the light transfer type image writing medium and written. According to the writing resolution at the time of writing the image, the display means divides the area in which the image of the optical transfer type image writing medium can be written into one or a plurality of partial areas as necessary, and divides the image into the display means. When the image displayed on the display unit by the optical unit is enlarged or reduced as necessary according to the writing resolution and a high-resolution image is transferred, a plurality of times are displayed for each divided image. The control means performs control to write the image onto the optical transfer type image writing medium by performing the transfer. Image writing wherein the.   In an image writing method in which an image is transferred by a display means to an optical transfer type image writing medium having a photosensitive layer and a cholesteric liquid crystal layer, the optical means is controlled by the control means in accordance with the writing resolution at the time of writing each image. The image displayed on the display means can be enlarged or reduced as necessary according to the writing resolution to transfer the image, and a plurality of images with different resolutions can be transferred to one optical transfer type image writing medium. An image writing method characterized by that.   When transferring an image, a voltage is applied to the optical transfer type image writing medium only to one or a plurality of partial areas to which the image on the optical transfer type image writing medium is transferred. The image writing method according to claim 9.   When performing writing a plurality of times on the light transfer type image writing medium, the display means is moved on the light transfer type image writing medium to transfer each image. The image writing method according to any one of claims 9 to 12.   10. When writing a plurality of times on the optical transfer image writing medium, the optical transfer image writing medium is moved to transfer each image. The image writing method according to claim 12.   When writing a plurality of times to the light transfer type image writing medium, the optical path from the display means to the light transfer type image writing medium is optically changed to transfer each image. The image writing method according to any one of claims 9 to 12, wherein the image writing method is performed.   The image writing method according to any one of claims 9 to 15, wherein the display unit is used to transfer a plurality of divided images to the optical transfer writing medium.

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