JPH0619009A - Image recorder - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide at low cost an image recording apparatus capable of accurately expressing multiple gradations even if the number of gradations increases. [Structure] In a frame memory 101 in which image data of 6-bit gradation is stored for each of R, G, and B, a transfer unit 104 that sequentially selects upper 3 bits and lower 3 bits from image data and transfers them to the LCD 6 is provided. The built-in image processing device 102 is connected. LCD driver 10
Reference numeral 3 controls the gradation degree of the LCD 6 in accordance with the image information of the upper 3 bits and the lower 3 bits selected by the transfer means 104. Further, the exposure control means 105 sets the maximum exposure time in the bit range for the upper 3 bits and the lower 3 bits and turns on the halogen lamp 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for recording an image by opening and closing an optical shutter to expose a photosensitive recording medium based on a video signal or image data of a personal computer or the like.

[0002]

2. Description of the Related Art Conventionally, an image recording apparatus of this type has, for example,
When recording an image based on image data of the Nth power gradation (grayscale) of N, it has N frame memories from the 1st power of 2 to the Nth power of 2 and exposes the photosensitive recording medium with an optical shutter. For example, for a frame of 2 Nth power, an exposure time of 2 Nth power × K (K is a constant) is given, and 2 (N−
For (1) th power frame, 2 (N-1) th power × K (K
Is a constant). That is, in the conventional image recording apparatus, the drive unit of the optical shutter does not have a function of changing (modulating) the exposure energy of the optical shutter (also referred to as a multi-gradation expression function).・ OFF control was only performed. In other words, optical shutter was not designed to express the gradation of image data. For this reason,
By giving an exposure time in proportion to the degree of gradation of each bit, only the exposure time is adjusted to obtain an output image with gradation.

FIG. 4 is a diagram showing the exposure time of each bit in the conventional image recording apparatus, showing the case where the image data is 6 bits.

[0004]

However, in the conventional image recording apparatus, as can be seen from FIG. 4, the exposure time is sufficient in the case of the image data having the higher order gradation, but the lower order The exposure time decreases exponentially as it becomes a bit. Therefore, the lower the bit, the shorter the exposure time.
There is a problem that the N / OFF response (speed) cannot follow the exposure time, and an image in which the gradation of the image data is not sufficiently expressed is recorded.

The present invention has been made to solve the above-mentioned problems, and even when the number of gradations of image data is large, an image can be accurately recorded according to the number of gradations, and the image recording is inexpensive. The purpose is to provide a device.

[0006]

In order to achieve this object, an image recording apparatus of the present invention is provided with a light source having a wavelength necessary for exposing a photosensitive recording medium and an efficient use of light from the light source. In an image recording apparatus provided with a condensing unit and an optical shutter composed of a plurality of cells, which can be controlled according to an image to be recorded, an optical shutter driving unit capable of expressing a plurality of gradations of the optical shutter, and the optical shutter driving unit. A transfer unit that gradually selects and transfers a predetermined number of bits from the image information to the shutter drive unit, and a maximum exposure time in the bit range is set for each of the predetermined number of bits selected by the transfer unit. And an exposure control means.

[0007]

According to the image recording apparatus of the present invention having the above-mentioned structure, the transfer means is included in the image data (for example, 6 bits).
A predetermined number of bits are selected and transferred to the optical shutter drive means. Then, the optical shutter drive means controls the gradation degree (in other words, the light transmittance) of the optical shutter according to the image data consisting of a predetermined number of bits selected by the transfer means. Then, the exposure control means sets the maximum exposure time in the bit range for each of the selected predetermined number of bits.

That is, when the image data is 6 bits, the image information is transferred to the optical shutter drive means by the transfer means in two stages, for example, each of the upper 3 bits and the lower 3 bits. At this time, the exposure control means is
The exposure time for the upper 3 bits is K2 ⁵ (K
Is set to a constant), the exposure time for the lower 3 bits is set to K2 ^(5-3) (K is a constant), and the photosensitive recording medium is exposed twice. As a result, the exposure time on the lower bit side can be extended exponentially as compared with the conventional apparatus (see FIG. 4). Further, at the time of exposure, the optical shutter drive means controls the gradation degree of the optical shutter for the upper 3 bits and the lower 3 bits, respectively.

[0009]

EXAMPLE An example in which a liquid crystal display (hereinafter referred to as LCD) is used as an optical shutter will be described below as an example embodying the present invention.

In the liquid crystal printer 1 of the present embodiment shown in FIG. 1, the photosensitive paper 7 (hereinafter referred to as microcapsule paper) is used.
A photosensitive recording medium composed of a developing paper and a color developing paper 8 is used.
Incidentally, the microcapsule paper 7 used in this embodiment
Microcapsules are coated on the surface of the support, and a dye precursor that reacts with a developer, which will be described later, and the like are included in the microcapsules. On the other hand, the surface of the support of the color developing paper 8 is coated with a color developing agent, which develops color by reacting with a dye precursor, and details are described in U.S. Pat. No. 4,399,209. Will be omitted.

A halogen lamp 3 is used as an exposure light source, and a reflector 2 is arranged above it. A condenser lens 4 is disposed below the halogen lamp 3, and an infrared cut filter 5 is disposed further below the condenser lens 4. Below the infrared cut filter 5, a filter unit 22 including color filters 22R, 22G and 22B and an LCD 6 are arranged in this order. The LCD 6 has a known structure and is composed of a plurality of liquid crystal cells.

A light-shielding cartridge 18 is replaceably arranged on one side (left side in the drawing) of the liquid crystal printer 1.
Inside the cartridge 18, the cartridge shaft 15
The unexposed microcapsule paper 7 is housed in a wound state. To the right of the cartridge 18,
A feed roller 19 is provided. Further, the other end side of the microcapsule paper 7 is provided with a pair of pressure rollers 11a, 1a arranged on the opposite side (right side in the figure) with the liquid crystal panel 6 interposed therebetween.
It is wound around a winding shaft 16 disposed below the pressure rollers 11a and 11b through the space 1b.

A thermal fixing device 12 having a heater 13 therein is disposed on the right side of the pressure rollers 11a and 11b, and a conveying belt 14 is disposed below the thermal fixing device 12.

A storage cassette 20 for developing color paper 8 is detachably attached to the liquid crystal printer 1 above the heat fixing device 12, and above the front end (left end) of the storage cassette 20.
The half-moon roller 9 is rotatably arranged. Further, a paper feed roller 10 and a paper feed guide 17 are arranged on the left side of the storage cassette 20 so that the color paper 8 delivered from the storage cassette 20 is guided to the pressure rollers 11a and 11b. .

Next, the liquid crystal printer 1 of this embodiment described above.
The configuration of the control system of the LCD 6 provided in the above will be described.

As shown in FIG. 2, a predetermined bit, for example, 6
A frame memory 101 for storing R (red), G (green), and B (blue) image data of bit gradation is provided, and the frame memory 101 has an image of 6-bit gradation for each of R, G, and B. The data is stored. The frame memory 101 is connected to the image processing apparatus 102, and the R, G, and B image data are input from the frame memory 101 to the image processing apparatus 102. Further, the image processing apparatus 102 has a built-in transfer means 104 for sequentially selecting the upper 3 bits and the lower 3 bits from the 6-bit image data in the frame memory 101 and transferring the selected data to the LCD 6. Further, an LCD driver 103 as LCD driving means is connected to the output side of the image processing apparatus 102,
The D drive means 103 drives the LCD 6. This LCD
The driver 103 controls the gradation degree (light transmittance) of the LCD 6 according to the image information of the upper 3 bits and the lower 3 bits selected by the transfer unit 104.

An exposure control means 105 for controlling the lighting time of the halogen lamp 3 is connected to the halogen lamp 3. The exposure control means 105 is connected to the image processing apparatus 102 (transfer means 104), and the transfer means 1
For the upper 3 bits and lower 3 bits selected by 04, the maximum exposure time in those bit ranges (upper 3
(K2 ⁵ for bit, K2 ² for lower 3 bits: see Fig. 3)
And the halogen lamp 3 is turned on.

Next, the operation of the liquid crystal printer 1 of the above embodiment will be described.

In FIGS. 1 and 2, first, when a print start key (not shown) is pressed, R, G, and B image data are input from the frame memory 101 to the image processing apparatus 102. Image processing device 102
The transfer means 104 therein first selects the upper 3 bits of the color-corrected R image data and transfers it to the LCD driver 103, and the LCD driver 103 causes the LCD 6 to display a monochrome image corresponding to red of 3 bit gradation on the LCD 6. Is displayed.

Next, the halogen lamp 3 which is a light source is turned on for a predetermined time through the exposure control means 105. The exposure control means 105 sets the exposure time (lighting time of the halogen lamp 3) at this time to K2 ⁵ , as shown in FIG.
The light from the halogen lamp 3 is reflected by the reflector 2 and the condenser lens 4.
The light is efficiently collected by and and becomes a parallel state, and the light is irradiated onto the LCD 6 through the infrared cut filter 5 and the red filter 22R.

The microcapsule paper 7 which is stationary under the LCD 6 is exposed with light selected by the red image information displayed on the LCD 6. When this exposure is completed, the transfer means 104 in the image processing apparatus 102 selects the lower 3 bits of the color-corrected R image data and selects the LCD.
LCD driver 103 transfers to driver 103
A monochrome image corresponding to red with 3-bit gradation is displayed on D6. Then, similarly to the exposure by the upper 3 bits, the halogen lamp 3 is turned on for a predetermined time through the exposure control means 105 to expose the microcapsule paper 7. The exposure time (lighting time of the halogen lamp 3) at this time is set to K2 ² by the exposure control means 105 as shown in FIG.

When the red exposure is completed in this way, the red filter 22R is retracted and the green filter 22G is displayed on the LCD.
6, the red signal of the LCD 6 is switched to the green signal at the same time, and the exposure is performed as in the case of the red exposure. When the green exposure is completed, the blue exposure is switched to, but this operation is the same as in the red exposure and the green exposure.

When the exposure with each of the colors R, G and B is completed in this way, a color latent image is formed on the microcapsule paper 7, and the halogen lamp 3 is turned off. continue,
The microcapsule paper 7 includes a winding shaft 16 and a feed roller 1.
It is sent in the direction of the pressure rollers 11a and 11b by the rotational force of 9. On the other hand, the developer paper 8 in the storage cassette 20 is fed one by one by the half-moon roller 9, and the paper feed guide 1
The pressure roller 11a, 1
It is sent up to 1b.

Then, the exposed surface (latent image forming surface) of the microcapsule paper 7 and the developer application surface of the developer paper 8 are overlapped with each other and pressed by the pressure rollers 11a and 11b, and micro The latent image of the capsule paper 7 is transferred to the color developing paper 8. The color developing paper 8 is further conveyed by the conveying belt 14 and heated by the heater 13 of the thermal fixing device 12 to accelerate color development, and is discharged to the outside of the liquid crystal printer 1 with a color image formed. The microcapsule paper 7 is wound around the winding shaft 16 after passing between the pressure rollers 11a and 11b.

The image recording apparatus according to the present invention is not limited to the embodiments described in detail above, and various modifications can be made without departing from the spirit of the invention. For example, the gradation number may be any value other than 64 (6 bits), and the exposure order may not be the RGB order. Further, in the above embodiment, the case where the LCD is used as the optical shutter has been described as an example.
It goes without saying that it can be applied to optical shutters other than LCDs.

[0026]

As is clear from the above description,
According to the image recording apparatus of the present invention, the exposure time per exposure can be significantly extended as compared with the conventional apparatus, so that the ON / OFF time interval per dot of the optical shutter becomes long, and a general optical shutter is provided. Since it becomes possible to sufficiently follow the ON / OFF response speed due to, it is possible to record an image in which the number of gradations is accurately expressed even when the number of gradations of the image is large. Further, although the exposure time per one time of the optical shutter is extended, the number of exposures is significantly reduced (1/3 when the number of bits selected by the transfer means is 3), and therefore the total exposure time is shortened, so that image recording is performed. Speed up. Moreover, since a general-purpose optical shutter can be used, the manufacturing cost of the image recording apparatus can be reduced.

[Brief description of drawings]

FIG. 1 is a front view schematically showing the overall configuration of an image recording apparatus (liquid crystal printer) according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a control system of an LCD.

FIG. 3 is a diagram showing exposure times of upper 3 bits and lower 3 bits in the image recording apparatus of the present invention.

FIG. 4 is a diagram showing an exposure time of each bit in a conventional image recording apparatus, showing a case where image data is 6 bits.

[Explanation of symbols]

 1 Liquid Crystal Printer 2 Reflector 3 Halogen Lamp 4 Condenser Lens 5 Infrared Cut Filter 6 LCD 7 Micro Capsule Paper 8 Color Paper 9 Half Moon Roller 10 Paper Feed Roller 11a / 11b Pressure Roller 12 Heat Fixing Device 13 Heater 14 Conveyor Belt 15 Cartridge Axis 16 Take-up shaft 17 Paper feed guide 18 Cartridge 19 Feed roller 22 Filter unit 22R Red filter 22G Green filter 22B Blue filter 101 Frame memory 102 Image processing device 103 LCD driver 104 Transfer means 105 Exposure control means

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[Procedure amendment]

[Submission date] September 1, 1993

[Procedure Amendment 1]

[Document name to be corrected] Drawing

[Correction target item name] All drawings

[Correction method] Change

[Correction content]

[Figure 1]

[Fig. 2]

[Figure 3]

[Figure 4]

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Internal reference number FI Technical display location H04N 1/036 B 9070-5C 1/23 103 B 9186-5C // G03G 15/04 116 9122- 2H

Claims (1)

[Claims] 1. A light source having a wavelength necessary for exposing a photosensitive recording medium, a condensing unit for efficiently utilizing light from the light source, and a plurality of cells capable of controlling according to an image to be recorded. In an image recording apparatus provided with an optical shutter including the optical shutter, an optical shutter drive unit capable of expressing a plurality of gradations of the optical shutter, and the optical shutter drive unit selects a predetermined number of bits from image data step by step. And an exposure control unit that sets a maximum exposure time in the bit range for each predetermined number of bits selected by the transfer unit.