JPH1178084A - Recording method and apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To change the thickness of a protection layer by calculating the energy of recording the protection layer from the brightness component extracted from the image data of an N component and recording the protection layer according to the value. SOLUTION: A brightness component calculating device 7 receives Y, M, C data from a recording color data generating device 3 by one element for each time so a to convert the same to a brightness component. A protection layer recording gradation converting device 9 receives the brightness component of the pixel from the brightness component calculating device 7 so as to output the energy for recording the protection layer according to the received value. In recording the protection layer, a head data generating means 4 receives the output from the protection layer recording gradation converting device 9 and convert the same into a signal form so that a thermal head 5 can record this on a recording paper for recording (transferring) the protection layer on the recording paper. Therefore, the protection layer can be recorded according to the brightness of the image to be recorded, and thus the thickness of the protection layer can be changed according to the brightness component of the inputted image signal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording method for N-color thermal transfer, in which an N-color (N is a positive number) ink or ink sheet is used for recording paper, sub-scan is performed N times, and an arbitrary image is recorded. The present invention relates to an apparatus, and more particularly to a recording method and an apparatus provided with a recording system of a protective layer (laminated layer or overcoat layer) after recording an image on recording paper.

[0002]

2. Description of the Related Art In a conventional recording method, when a protective layer is recorded, regardless of the image data recorded before recording the protective layer, whether the protective layer is recorded with a constant amount of heat over the entire recording paper,
Alternatively, a protective layer having a predetermined pattern such as a checkered pattern is continuously recorded on the entire surface of the recording paper. FIG. 5 is a block diagram of a recording apparatus having a conventional protective layer recording system. FIG.
In the figure, reference numeral 1 denotes an MPU (CPU) for controlling the digital circuits and the system of the recording apparatus as a whole. 2
Is an image storage device for storing image data to be recorded on recording paper in the form of digital data. The input image data is digital data, but R, three primary colors of light,
G and B may be stored, respectively, or Y (yellow), M (magenta) and C (cyan) which are complementary colors of R, G and B may be stored. In the case of a video input recording device, a luminance signal and a color difference signal may be stored. Writing and reading of data in this storage device is performed by M
PU1 controls. Numeral 3 is a recording color data generation device, which records by the recording device in line units.
For each color (here, Y, M, C of the ink sheet)
In the case of a line printer that prints in one line, one line of each color is recorded according to the data in the image storage device 2.
Is converted into Y, M, C data (gradation data). As a conversion method, conversion is mainly performed by a circuit or an MPU according to a conversion formula.

Reference numeral 6 denotes a protective layer gradation data storage device for a protective layer for recording after recording the recording colors Y, M, and C. When the protective layer is recorded at the same gradation (energy) on the entire recording paper, gradation data corresponding to the energy is stored. FIG. 6 shows an example of a pattern in the case of recording the protective layer, which shows a checkered pattern. The numbers in the figure show the gradation when the protective layer is recorded. Energy is great. When a protective layer having a fixed pattern such as a checkered pattern shown in FIG. 6 is repeatedly recorded vertically and horizontally, the pattern is stored as data for the entire recording paper, or a pattern is written and stored in line units from the MPU 1. . Reference numeral 4 denotes a head data generation device,
When recording each of the colors M and C, the gradation data is received from the recording color data generation device 3, while when recording the protection layer, the gradation data is received from the protection layer gradation data storage device 6 and received. The converted gradation data is converted into a signal form that allows the thermal head 5 to record on recording paper. Reference numeral 5 denotes a thermal head that records (transfers) data received from the head data generating device 4 on recording paper.

[0004]

In the conventional recording apparatus as described above, when a protective layer is recorded, recording is performed at the same gradation on the entire surface of the recording paper or from a plurality of dots as shown in FIG. The composed pattern was repeatedly recorded vertically and horizontally. That is, in such a conventional protective layer recording method, the recorded image data and the protective layer have no numerical data relevance, and the protective layer simply protects the recorded color (ink or ink sheet). It only played a role.

[0005] The present invention has been made in view of the above points, and it is possible to enhance the impression and interest of a recorded image with a protective layer, and at the same time, record the protective layer in accordance with the luminance component of the image. A recording method in which the state of peeling of the protective layer from the ink sheet for the protective layer applied to the recording paper is improved at the boundary between the shades of the protective layer, so that the protective layer can be clearly recorded from the ink sheet. A recording device is provided.

[0006]

According to the recording method of the present invention, an N color (N is a positive number) ink or ink sheet is sub-scanned N times on a recording paper to record an N color image. After that, in the recording of the protective layer thereon, a luminance component is extracted from the image data for N colors, the energy of the recording of the protective layer is calculated from the extracted luminance component, and the protective layer is recorded according to the value. It is something to do.

Further, before recording the protective layer corresponding to the luminance component, the protective layer is transferred with a constant energy to the entire surface of the recording paper.

Further, the energy of the recording of the protective layer is calculated according to the luminance component, and after recording the protective layer according to the calculated value,
The protective layer is transferred onto the entire surface of the recording paper with a constant energy.

[0009] Further, an arbitrary color component data is added to the extracted luminance component, the energy of recording of the protective layer is calculated, and the protective layer is recorded according to the calculated value.

Further, the extracted luminance component is stored, and the stored image luminance component data is used as a reference pixel to perform contour emphasis on a certain luminance component. This is calculated and the protective layer is recorded according to the calculated value.

Before recording the protective layer in accordance with the luminance component subjected to the edge enhancement, the protective layer is transferred with a constant energy over the entire surface of the recording paper, and then the energy of the recording of the protective layer is calculated from the luminance component. , The protective layer is recorded according to the value.

Further, the energy of the recording of the protective layer is calculated from the luminance component subjected to the contour enhancement, and after recording the protective layer in accordance with the calculated value, the protective layer is transferred onto the entire surface of the recording paper with a constant energy. It was done.

[0013] Further, an arbitrary color component data is added to the luminance component subjected to contour enhancement, and then the energy of recording of the protective layer is calculated, and the protective layer is recorded according to the calculated value.

Further, the extracted luminance component is converted into the energy of the recording of the protective layer, the converted converted luminance component is stored, and the stored converted luminance component data is used as reference data, and the converted converted luminance component is used as a reference. After contour enhancement,
The energy of the recording of the protection layer is calculated from the luminance component after the conversion with the edge emphasized, and the protection layer is recorded according to the calculated value.

Further, before recording the protective layer in accordance with the converted luminance component subjected to the contour emphasis, the protective layer is transferred over the entire surface of the recording paper with a constant energy, and further the converted luminance component is used to record the protective layer. The energy is calculated and the protective layer is recorded according to the calculated energy.

Further, the energy of the recording of the protective layer is calculated from the converted luminance component subjected to the contour enhancement, the protective layer is recorded in accordance with the calculated value, and then the protective layer is recorded with a constant energy over the entire recording paper. It was made.

In addition, the energy of the recording of the protective layer is calculated after adding arbitrary color component data to the converted luminance component after contour enhancement, and the protective layer is recorded in accordance with the calculated value.

According to the present invention, there is provided a recording apparatus comprising: image storage means for storing digital input image data to be recorded on recording paper; recording color data generation means for generating color data from an output of the image storage means; Head data generating means for converting the output of the generating means into a form for outputting to the thermal head, a thermal head, a luminance component calculating means for extracting a luminance component from the output of the recording color data generating means, and protecting the output of the luminance component calculating means A protective layer recording gradation converting means for converting the energy into energy for forming a layer to be applied to the head data generating means, and a control means for controlling each of the above means.

The storage means for storing the output of the luminance component calculation means or the output of the protection layer recording gradation conversion means, and the luminance component stored in the storage means as a reference signal.
It is provided with a luminance component contour emphasizing means for performing contour emphasis on a certain luminance component.

Further, there is provided a color component adding means for adding the color component from the recording color data generating means to the protective layer forming energy by the protective layer recording gradation converting means.

Further, the apparatus is provided with a protective layer gradation data storage means for transferring the protective layer over the entire surface of the recording paper with constant energy.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating the recording apparatus according to the first embodiment. In FIG. 1, reference numeral 1 denotes an M which controls the digital circuits and the system of the recording apparatus as a whole
PU (CPU) 2, an image storage device capable of storing image data to be recorded on a recording paper as digital data, 3; image data read from the image storage device 2 as Y, M, C data (gradation data) Is a luminance component calculating device that calculates (extracts) a luminance component from the Y, M, and C data generated by the recording color data generating device 3, and 8 is a recording color data generating device. A color component adding device 9 for adding the color component data of the pixel and the luminance component from the luminance component calculating device 7; A protective layer recording gradation converting device for outputting, a head data generating device, and a thermal head for recording (transferring) data received from the head data generating device on recording paper. The MPU 1 is configured so as to be able to control each block other than the thermal head (not shown here because the connection is complicated).

Next, the operation will be described. The image storage device 2
The digital image data to be input is stored. In some cases, R, G, and B, which are the three primary colors of light, are respectively stored, and Y (yellow) and M, which are complementary colors of R, G, and B, are stored.
(Magenta) and C (cyan) may be stored. Further, in the case of a video signal input recording device, a luminance signal and a color difference signal may be stored in some cases. This image storage device 2
The MPU 1 controls writing and reading of the data.

The recording color data generating device 3 is a line printer that records in line units and records each color (here, Y, M, and C of the ink sheet). The image data read from the image recording device 2 for one line recording is converted into Y, M, C data (gradation data) according to the data in the image storage device 2. The conversion methods mainly include circuits and MPUs that follow the conversion formula.
Is converted by As an example, a typical calculation method for calculating Y, M, and C data from R, G, and B data is as follows. When R, G, and B are digital data based on a binary system, respectively, Y , M are performed by calculating the complement of G, and C is performed by calculating the complement of R.

The luminance component calculator 7 calculates a luminance component from the Y, M, and C data calculated by the recording color data generator 3. As an example of the calculation method, Y, M, and C data are each 4 bits, Y = 1101, M = 1000,
When C = 0101, the minimum value 0101 among them becomes the luminance component. The luminance component calculating device 7 receives the Y, M, and C data one pixel at a time from the recording color data generating device 3 and converts it into a luminance component. The protection layer recording gradation conversion device 9 receives the luminance component of the pixel from the luminance component calculation device 7 and outputs the energy for recording the protection layer according to this value. This protective layer recording gradation conversion device 9 is constituted by a function or a lookup table. For example, in the case of a function, using the following equation (A), the input luminance component is the input data (X) of the function, and the calculation result Y of the function is the output of the protection layer recording tone conversion device 9. Which is the energy for recording the protective layer. Y = H (X) (A) In the case of the lookup table, the value of the luminance component from the recording color data generation device 3 becomes the address of the lookup table (memory) and is read from the table. The data is output from the protective layer recording gradation conversion device 9.

The color component adding device 8 is a color component adding device for adding the color component data from the recording color data generating device 3 and the luminance component from the luminance component calculating device 7. The color component data from the recording color data generation device 3 to the color component addition device 8 is
R, G, B, or Y, M, C, etc., which perform addition / subtraction with the luminance component. As an example of the output result, assuming that the luminance component is K, K + color, K-color, color-K, color 1 + color + K,
There are combinations such as K-color 1-color 2. (Color, color 1,
Color 2 is one of R, G, B, Y, M, and C). The color component adding device 8 inputs and subtracts the result of addition and subtraction of the luminance component and the color component to the protection layer recording gradation conversion device 9 and converts it into energy for recording the protection layer.

The head data generating device 4 receives gradation data from the recording color data generating device 3 when recording each of Y, M and C colors, and enables the thermal head to record the received gradation data on recording paper. The image is recorded (transferred) on the data recording paper by the thermal head 5 after being converted into an appropriate signal form. On the other hand, when recording the protection layer, the head data generation device 4 receives the output from the protection layer recording gradation conversion device 9 for converting the luminance component from the luminance component calculation device 7 into the protection layer recording energy data, This is converted into a signal form that the thermal head 5 can record on the recording paper, and the thermal head 5
To record (transfer) the protective layer on the recording paper. Therefore, the protective layer can be recorded according to the luminance of the recorded image, and the thickness of the protective layer is changed according to the luminance component of the input image signal, so that the printed recorded image looks three-dimensional. be able to.

Embodiment 2 The configuration of the recording apparatus according to the second embodiment is the same as that of FIG. In the second embodiment, an arbitrary color component is added to the extracted luminance component by the color component addition device 8, and the extracted luminance component is converted into the energy of the protection layer recording by the protection layer recording gradation conversion device 9 according to the value. , A protective layer. The arbitrary color component is, for example, R, G, B
Focusing on a certain pixel composed of the three colors, if its luminance component is Y, RY, GY, BY, or a value calculated from a combination of addition and subtraction thereof,-( R
-Y) and GB. The arbitrary color can be set by the MPU 1 according to the user's preference or based on the color adjustment of the printed image. By changing the thickness of the protective layer according to the luminance component and any color component of the input image, the printed recorded image can be seen three-dimensionally, and any color can be three-dimensionally enhanced. can do.

That is, the color component adding device 8 includes the color component data from the recording color data generating device 3 and the luminance component calculating device 7.
Is a color component adding device for adding the luminance component from the color component. The color component data supplied from the recording color data generation device 3 to the color component addition device 8 is R, G, B or Y, M, C, etc., where addition and subtraction with the luminance component are performed. As an example of the output result, assuming that the luminance component is K, K + color, K−
There are combinations such as color, color-K, color 1 + color + K, K-color 1-color 2. (Color, color 1, color 2 are R, G, B, Y,
M, one of C). The color component addition device 8 inputs the result of addition and subtraction of the luminance component and the color component to the protection layer recording gradation conversion device 9, where it is converted into energy for recording the protection layer. The following is the same as in the first embodiment.

Embodiment 3 Hereinafter, a third embodiment of the present invention will be described with reference to the drawings. FIG. 2 is a block diagram of a recording apparatus according to the third embodiment. FIG. 2 includes a protective layer gradation data storage device 6, a luminance component storage device 10, and a luminance component outline emphasis device 11 in addition to the blocks shown in FIG. The MPU 1 is configured so as to be able to control each block other than the thermal head (not shown here because the connection is complicated). The other parts are the same as those in FIG.

Reference numeral 6 denotes the protective layer gradation data for the protective layer to be recorded on the entire surface of the recording paper before recording the protective layer according to the luminance component or after recording the protective layer according to the luminance component. It is a storage device. The gradation data corresponding to the energy used when recording the protective layer at the same gradation (energy) on the entire surface of the recording paper is stored here. 1
0 is a luminance that stores the luminance components calculated by the luminance component calculation device 7 as many pixels as necessary as reference pixels when the luminance component outline enhancement device 11 performs outline enhancement on an arbitrary luminance component. A component storage device (memory). By the way, when the protective layer is recorded on the entire recording paper, the gradation data is input from the protective layer gradation data storage device 6 to the head data generating device, and when the protective layer is recorded according to the luminance component, The gradation data is input from the protection layer recording gradation conversion device to the head data generation device, and this control is performed by the MPU.

FIG. 3 shows an example of a pixel configuration for edge enhancement.
The circle in the figure is one pixel, and indicates the luminance component. In FIG. 3, X indicates a pixel whose outline is emphasized, and A, B, C, and D indicate reference pixels. The gradation value of X is compared with the gradation value of reference pixel A. When −Z <X−A <Z (Z is a positive number), X is
Add a value determined according to the value of -A. The same applies to B, C, and D. By this operation, X is contour-emphasized. In the case of FIG. 3, the number of reference pixels is 4, and the coordinates of A, B, C, and D are constant.
The number of reference pixels is arbitrary, and the coordinates are also arbitrary.

In the example of FIG. 3, the luminance component storage device 10
May store the luminance components for three lines. The protective layer recording gradation conversion device 9 receives the luminance component whose contour has been enhanced from the luminance component contour emphasizing device 11 as in the first embodiment,
The energy for recording the protective layer is output according to this value. Reference numeral 8 denotes a color component addition device that adds the color component data from the recording color data generation device 3 and the luminance component whose contour has been emphasized from the luminance component contour emphasis device 11. The color component adding device 8 inputs and subtracts the result of addition and subtraction of the luminance component and the color component whose outline has been emphasized, and converts the result into the energy at the time of recording of the protective layer.

Therefore, the extracted luminance component is stored in the image luminance component storage device 10 in order to perform contour enhancement on the luminance component calculated (extracted) by the luminance component calculation device 7, and the stored image luminance component data is stored in the image luminance component storage device 10. By using the luminance component contour emphasizing device 11 to add data for contour emphasis to the energy for recording the protective layer obtained based on the luminance component as a reference pixel as necessary (by using the protective layer). (Energy can be increased or decreased for recording), and edge enhancement can be performed. Thereby, by changing the thickness of the protective layer according to the luminance component of the input image, it is possible to make the printed recorded image look three-dimensional, and by applying contour enhancement to the protective layer, The peeling of the protective layer from the ink sheet can be improved, and the state of transfer of the protective layer becomes clear. This is because if the energy applied to the edge portion of the image when recording the protective layer increases (the amount of heat increases) by performing contour enhancement, the peeling of the protective layer applied to the edge portion from the protective ink sheet may occur. This is because the cutting becomes better.

Before recording the protective layer in accordance with the luminance component subjected to the edge enhancement, the gradation data storage device 6 for the protective layer is used.
After the protective layer is transferred to the entire surface of the recording paper with a constant energy by the output of, the energy of the protective layer recording can be further calculated according to the luminance component, and the protective layer can be recorded. Thereby, the image on the entire surface of the recording paper can be protected, and the printed recorded image can be seen three-dimensionally, and the protective layer can be peeled from the ink sheet by emphasizing the contour. Can be improved, and the state of transfer of the protective layer becomes clear.

Further, the energy of the recording of the protective layer is calculated in accordance with the luminance component subjected to the contour enhancement, and after recording the protective layer, the output of the gradation data storage device 6 for the protective layer further keeps the entire surface of the recording paper constant. The protective layer can be recorded with energy. Thereby, while being able to protect the image of the entire recording paper, it is possible to make the printed recording image look three-dimensional, and by emphasizing the contour on the protective layer,
The peeling of the protective layer from the ink sheet can be improved, and the state of transfer of the protective layer becomes clear.

It is also possible to add arbitrary color component data to the luminance component subjected to contour enhancement by the color component adding device 8, calculate the energy for recording the protective layer according to the value, and record the protective layer. it can. Thereby, the image on the entire surface of the recording paper can be protected, and the printed recorded image can be seen three-dimensionally, and the protective layer can be peeled from the ink sheet by emphasizing the contour. Can be improved, the state of transfer of the protective layer becomes clear,
In addition, any color can be emphasized three-dimensionally. The MPU 1 controls how to record the protective layer, such as recording the entire surface of the protective layer or recording the protective layer with contour emphasis.

Embodiment 4 FIG. Hereinafter, a fourth embodiment of the present invention will be described with reference to the drawings. FIG. 4 is a block diagram of a recording apparatus according to the fourth embodiment. 4 is different from FIG. 2 in that a post-conversion luminance component storage device 12 is provided instead of the luminance component storage device 10 in FIG. 2 and that the path of the protective layer recording gradation conversion device 9 is changed. is there. MPU
Reference numeral 1 is configured to control each block other than the thermal head (not shown here because connection is complicated).

The operation will be described below. Luminance component calculation device 7
The data of the luminance component output from is converted to the data of the protective layer recording gradation by the protective layer recording gradation conversion device 9 and converted into the data of the protection layer recording gradation. The contour enhancement is performed on the energy data for the recording of the protective layer that has been performed in the same manner as described in the third embodiment. The post-conversion luminance component storage device 12 stores (memory) post-conversion luminance components for the required number of pixels in order to perform edge enhancement. Similar to the third embodiment, the color component addition device 8 includes the color component data from the recording color data generation device 3 and the luminance component contour enhancement device 11.
, The contour-enhanced post-conversion luminance component is added. Since the output of the color component adding device 8 is the result of performing addition and subtraction on the converted luminance component and the color component whose outline has been emphasized, the output has already been converted into the energy for recording on the protective layer. Is entered directly into.

Accordingly, according to the luminance component extracted by the luminance component calculating device 7, the energy is converted into energy for recording in the protective layer by the protective layer recording gradation converting device 9, and the converted luminance component is once converted. Using the converted luminance component data stored and stored in the luminance component storage device 12 as reference data, a certain converted luminance component is subjected to contour enhancement by the luminance component contour enhancing device 11, and then the contour-enhanced converted The energy of recording of the protective layer is calculated according to the luminance component, and the protective layer is recorded. Thereby, by changing the thickness of the protective layer according to the luminance component of the input image, it is possible to make the printed recorded image look three-dimensional, and by applying contour enhancement to the protective layer, The peeling of the protective layer from the ink sheet can be improved, and the state of transfer of the protective layer becomes clear.

Before recording the protective layer in accordance with the converted luminance component subjected to the contour emphasis, the protective layer is transferred to the entire surface of the recording paper by the protective layer gradation data storage device 6 with constant energy. Further, the energy of the recording of the protective layer can be calculated according to the converted luminance component, and the protective layer can be recorded. Thereby, the image on the entire surface of the recording paper can be protected, and the printed recorded image can be seen three-dimensionally, and the protective layer can be peeled from the ink sheet by emphasizing the contour. Can be improved, and the state of transfer of the protective layer becomes clear.

Further, the energy of the recording of the protective layer is calculated according to the converted luminance component after the contour emphasis, and after recording the protective layer, the constant energy over the entire recording paper is recorded by the protective layer gradation data storage device 6. To record the protective layer. Thereby, the image on the entire surface of the recording paper can be protected, and the printed recorded image can be seen three-dimensionally, and the protective layer can be peeled from the ink sheet by emphasizing the contour. Can be improved, and the state of transfer of the protective layer becomes clear.

Also, after adding arbitrary color component data to the converted luminance component subjected to the outline emphasis by the color component adding device 8, the energy of recording of the protective layer is calculated in accordance with the value.
A protective layer can be recorded. Thereby, the image on the entire surface of the recording paper can be protected, and the printed recorded image can be seen three-dimensionally, and the protective layer can be peeled from the ink sheet by emphasizing the contour. Can be improved, the state of transfer of the protective layer becomes clear, and any color can be three-dimensionally enhanced. The MPU 1 controls how to record the protective layer, such as recording the entire surface of the protective layer or recording the protective layer with contour emphasis.

[0044]

As described above, according to the present invention, the protective layer can be recorded according to the luminance component of the recorded image, and the thickness of the protective layer can be recorded according to the luminance component of the input image. Is changed, it is possible to make the printed recorded image look three-dimensional.

Further, before recording the protective layer in accordance with the luminance component, the protective layer having a constant thickness or density is recorded on the entire surface of the recording paper. Images can be seen in three dimensions.

Further, after the protective layer is recorded according to the luminance component, the protective layer having a constant thickness or density is recorded on the entire surface of the recording paper, so that the image on the entire recording paper can be protected and the recorded image can be protected. Can be seen three-dimensionally.

Further, since an arbitrary color component is added to the luminance component extracted according to the luminance component and the protective layer is recorded according to the value, the luminance component of the input image and the arbitrary color component are recorded. By changing the thickness of the protective layer according to the above, the printed recorded image can be seen three-dimensionally, and an arbitrary color can be emphasized three-dimensionally.

Also, by changing the thickness of the protective layer according to the luminance component of the input image, it is possible to make the printed recorded image look three-dimensional, and to enhance the contour of the protective layer. As a result, the peeling of the protective layer from the ink sheet can be improved, and the state of transfer of the protective layer becomes clear.

Further, the energy of the recording of the protective layer is calculated in accordance with the luminance component subjected to the contour enhancement, and after recording the protective layer, the protective layer is further recorded on the entire surface of the recording paper with a constant energy. Not only can protect the printed image, but also make the printed recorded image look three-dimensional, and enhance the edge of the protective layer from the ink sheet by enhancing the outline of the protective layer. And the state of transfer of the protective layer becomes clear.

[Brief description of the drawings]

FIG. 1 is a view illustrating a first embodiment and a second embodiment of the present invention;
FIG. 2 is a block diagram showing a recording apparatus according to the first embodiment.

FIG. 2 is a block diagram showing a recording apparatus according to Embodiment 3 of the present invention.

FIG. 3 is a pixel configuration diagram illustrating contour emphasis of the recording apparatus according to the present invention.

FIG. 4 is a block diagram showing a recording apparatus according to Embodiment 4 of the present invention.

FIG. 5 is a block diagram showing a conventional recording apparatus.

FIG. 6 is a view showing a pattern of a protective layer of a conventional recording apparatus.

[Explanation of symbols]

1 MPU, 2 image storage device, 3 recording color data generation device, 4 head data generation device, 5 thermal head, 6 gradation data storage device for protection layer, 7 luminance component calculation device, 8 color component addition device, 9 protection layer Recording gradation conversion device, 10 brightness component storage device, 11 brightness component contour enhancement device, 12 brightness component storage device after conversion.

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI B41M 7/00 B41M 5/26 Z

Claims (16)

[Claims] 1. A recording method in which N-color (N is a positive number) ink or an ink sheet is sub-scanned N times on a recording paper, an N-color image is recorded, and a protective layer is recorded thereon. 3. The recording method according to claim 1, wherein a luminance component is extracted from the image data for N colors, an energy of recording of the protective layer is calculated from the extracted luminance component, and the protective layer is recorded according to the value. 2. The recording method according to claim 1, wherein before recording the protective layer corresponding to the luminance component, the protective layer is transferred with a constant energy over the entire surface of the recording paper. 3. The protective layer recording energy is calculated from the luminance component, the protective layer is recorded according to the calculated value, and then the protective layer is transferred to the entire surface of the recording paper with a constant energy. The recording method according to claim 1, wherein 4. The method according to claim 1, wherein an arbitrary color component data is added to the extracted luminance component, the energy of recording of the protective layer is calculated, and the protective layer is recorded according to the calculated value. The recording method according to any one of claims 1 to 3. 5. The extracted luminance component is stored, and the stored image luminance component data is used as a reference pixel to contour-enhance a certain luminance component. 2. The protection layer is recorded according to the calculated value.
The recording method described. 6. Before recording the protective layer in accordance with the luminance component subjected to the contour enhancement, the protective layer is transferred with a constant energy over the entire surface of the recording paper, and then the energy of the recording of the protective layer is calculated from the luminance component. 6. The recording method according to claim 5, wherein the protection layer is recorded according to the value. 7. The protective layer recording energy is calculated from the luminance component subjected to contour emphasis, and after recording the protective layer according to the calculated value, the protective layer is transferred onto the entire surface of the recording paper with a constant energy. The recording method according to claim 5, wherein the recording is performed. 8. The method according to claim 1, wherein an arbitrary color component data is added to the luminance component subjected to the edge enhancement, and then the energy of recording of the protective layer is calculated, and the protective layer is recorded according to the calculated value. The recording method according to claim 5. 9. Converting the extracted luminance component into energy for recording in the protective layer, storing the converted luminance component after conversion,
Using the stored converted luminance component data as reference data, after applying contour enhancement to a certain converted luminance component, the energy of the protective layer recording is calculated from the contour-enhanced converted luminance component, and according to the value, 2. The recording method according to claim 1, wherein the protective layer is recorded. 10. Before recording the protective layer in accordance with the post-conversion luminance component subjected to the edge enhancement, the protective layer is transferred with a constant energy over the entire surface of the recording paper. 10. The recording method according to claim 9, wherein the energy is calculated, and the protective layer is recorded according to the calculated energy. 11. Calculating the energy of the protective layer recording from the converted luminance component subjected to the edge enhancement, recording the protective layer according to the calculated value, and then recording the protective layer with a constant energy over the entire recording paper. 10. The recording method according to claim 9, wherein: 12. The method according to claim 1, wherein an arbitrary color component data is added to the converted luminance component subjected to the contour emphasis, the energy of the recording of the protective layer is calculated, and the protective layer is recorded according to the calculated value. The recording method according to claim 9, wherein the recording method is performed. 13. An image storage means for storing digital input image data to be recorded on a recording paper, a recording color data generation means for generating color data from an output of the image storage means, and an output of the recording color data generation means for outputting color data. Head data generating means for converting the output to the head, a thermal head, a luminance component calculating means for extracting a luminance component from the output of the recording color data generating means, and converting the output of the luminance component calculating means into energy for forming a protective layer And a protection layer recording gradation conversion means added to the head data generation means, and a control means for controlling the respective means. 14. A storage unit for storing an output of a luminance component calculation unit or an output of a protective layer recording gradation conversion unit, and using a luminance component stored in the storage unit as a reference signal to perform contour emphasis on a certain luminance component. 14. The recording apparatus according to claim 13, further comprising a luminance component contour emphasizing means for applying. 15. A color component adding means for adding a color component from a recording color data generating means to a protective layer forming energy by the protective layer recording gradation converting means. Recording device. 16. The method according to claim 13, further comprising a protection layer gradation data storage unit for transferring the protection layer over the entire surface of the recording paper with a constant energy. Recording device.