JPH0569568A - Thermal transfer color printer - Google Patents

Abstract

PURPOSE:To enhance the grade of an image when thermal transfer is applied to plain paper such as a postcard. CONSTITUTION:An ink sheet wherein a receiving layer and sublimable ink layers of respective colors are successively laminated in a sheet longitudinal direction is pressed by a thermal head 20 to thermally transfer the receiving layer and the sublimable ink layers of the respective colors to plain paper. When the receiving layer is thermally transferred, the region of the receiving layer of the ink sheet is detected by a receiving layer discriminating means 21. A stepping motor 24 for feeding paper is controlled by a feed density control means 23 so that paper feed density becomes high at the time of the thermal transfer of the receiving layer. By thermally transferring the receiving layer to plain paper in high density, the surface of the thermally transferred receiving layer becomes smooth and the grade of the image formed on the receiving layer is enhanced. Further, by increasing the heat energy of the thermal head 20 at the time of the thermal transfer of the receiving layer or changing the heat energy corresponding to the temp. of the thermal head 20, the grade of the image can be enhanced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermal transfer color printer capable of thermally transferring sublimable ink onto plain paper such as postcards.

[0002]

2. Description of the Related Art In conventional thermal transfer color printers using sublimable inks, an image is formed on a special paper by using an ink sheet in which sublimable ink layers of respective colors are sequentially laminated in the longitudinal direction of the sheet. FIG. 4 shows an ink sheet used for thermal transfer onto special paper. On the surface of the ink sheet, sublimable ink layers each including a set of three colors of yellow, magenta, and cyan are repeatedly laminated in the sheet longitudinal direction. At the time of image formation, each sublimable ink is sequentially thermally transferred by a thermal head onto a receiving layer previously laminated on the surface of special paper.

In contrast to such thermal transfer to special paper, it has recently been considered to perform thermal transfer to plain paper such as postcards. In that case, as shown in FIG. 5, an ink sheet having a sublimable ink layer of each color and a receptive layer laminated thereon is used, and the receptive layer is thermally transferred onto the surface of plain paper prior to the thermal transfer of the sublimable ink.

[0004]

However, plain paper such as postcards generally has poor surface smoothness due to irregularities due to fibers and the like. Therefore, the receiving layer thermally transferred onto the surface of the plain paper also has a problem that the surface smoothness is deteriorated and the quality of the image thermally transferred onto the receiving layer is deteriorated. Also,
The transfer heat energy changes depending on the temperature of the thermal head, which also affects the transfer efficiency of the receiving layer and causes the deterioration of the quality of the image thermally transferred onto the receiving layer.

The present invention was created in view of the above circumstances, and an object of the present invention is to provide a thermal transfer color printer capable of forming a high-quality image on plain paper.

[0006]

A thermal transfer color printer according to claim 1 of the present invention uses a thermal head and an ink sheet in which a receiving layer and a sublimable ink layer of each color are sequentially laminated in the sheet longitudinal direction. A thermal transfer color printer for sequentially thermally transferring a receptive layer and sublimable ink layers of respective colors onto plain paper, the receptive layer discriminating means for discriminating an area of the receptive layer in the ink sheet, and output data of the receptive layer discriminating means. Based on the above, there is provided a conveyance density control means for increasing the paper conveyance density when transferring the receiving layer as compared with when transferring the sublimable ink layer.

According to a second aspect of the present invention, there is provided a thermal transfer color printer in which a receptive layer and a sublimable ink layer of each color are sequentially laminated in a longitudinal direction of the sheet, and a thermal head is used to form a receptive layer on plain paper. And a thermal transfer color printer for sequentially thermally transferring sublimable ink layers of respective colors, the receiving layer discriminating means discriminating an area of the receiving layer in the ink sheet, and the receiving layer based on output data of the receiving layer discriminating means. The thermal energy changing means for controlling the thermal head is provided so that the transfer heat energy during transfer is larger than that during transfer of the sublimable ink layer.

According to a third aspect of the present invention, there is provided a thermal transfer color printer in which a receptive layer and a sublimable ink layer of each color are sequentially laminated in the longitudinal direction of the sheet, and a thermal head is used. And a thermal transfer color printer for sequentially thermally transferring sublimable ink layers of respective colors, wherein temperature detecting means for detecting the temperature of the thermal head, receiving layer determining means for determining the area of the receiving layer in the ink sheet, and the temperature Data for changing the setting data of the transfer heat energy according to the temperature of the thermal head so that the transfer heat energy is uniformized during the transfer of the receiving layer based on the output data of the detection means and the receiving layer determination means. It is characterized by having a setting means.

[0009]

In the thermal transfer color printer according to the first aspect of the present invention, the paper carrying density is increased during the thermal transfer of the receiving layer, and the receiving layer is thermally transferred to the plain paper at a high density.

In the thermal transfer color printer according to the second aspect of the present invention, the transfer heat energy is large during the transfer of the receiving layer, and the receiving layer penetrates well into the plain paper.

In the thermal transfer color printer according to claim 3 of the present invention, regardless of the temperature of the thermal head,
The thermal transfer of the receptor layer is performed with optimum heat energy.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a structural example of a thermal transfer color printer according to claim 1 of the present invention.

The thermal transfer color printer shown here is
Thermal transfer to plain paper is performed using the ink sheet 10 shown in FIG. On the surface of the ink sheet 10, a receptive layer and a sublimable ink layer having a set of three colors of yellow, magenta, and cyan are repeatedly laminated in the sheet longitudinal direction. The ink sheet 10 is housed in a cartridge and attached to a thermal transfer color printer.

The ink sheet 10 mounted on the thermal transfer color printer is subjected to thermal transfer at the thermal transfer section. That is, in the thermal transfer section, the thermal head 20 presses the ink sheet 10 against the paper (plain paper) every time the paper (plain paper) is fed by a predetermined step, and thermal transfer is performed linearly.
By repeating this, the receptive layer and the sublimable ink layer are thermally transferred to the paper (plain paper) sequentially.

The thermal transfer color printer has a receptive layer discriminating means 21 for discriminating the region of the receptive layer of the attached ink sheet 10. The receiving layer discriminating unit 21 is configured to recognize a mark attached to the ink sheet 10 with a reflective photointerrupter, a photocoupler, or the like, for example. The output of the receiving layer discrimination means 21 is input to the printer control circuit 22. The printer control circuit 22 detects that the receiving layer is conveyed to the thermal transfer portion of the thermal transfer color printer based on the output of the receiving layer discriminating means 21, and determines the paper conveyance density when the thermal transfer of the receiving layer is performed by the conveying density control means. Instruct 23.
The conveyance density control unit 23 controls the feeding step of the stepping motor 24 that conveys a sheet (plain paper) based on an instruction from the printer control circuit 22.

The paper transport density when thermally transferring the receiving layer is made higher than the paper transport density when thermally transferring the sublimable ink. That is, if the stepping motor 24 feeding step for thermal transfer of one line of sublimable ink layer is four steps, the feeding step of stepping motor 24 for thermal transferring one layer of receiving layer is two steps. The number of steps is smaller than that in the heat transfer of the volatile ink layer to increase the paper transport density. As a result, the receiving layer is thermally transferred to paper (plain paper) with a higher density than the sublimable ink layer, and the surface smoothness of the thermally transferred receiving layer is improved.

When the thermal transfer of the receiving layer is completed, the thermal transfer of the sublimable ink layer of the ink sheet 10 is performed. At the time of thermal transfer of the sublimable ink layer, first, a video input signal is input to the image processing circuit 25, where signal processing such as synchronous separation and Y / C separation is performed. Furthermore, the signal is R of the three primary colors.
It is separated into color signals of color, G color, and B color. And A / D
The converted color signal data is input to the gradation control circuit 26 in the order of the sublimable ink layer on the ink sheet 10 by a control signal from the printer control circuit 22. As a result, the thermal head 20 is driven in the order of B color, G color, and R color, and the sublimable inks of yellow, magenta, and cyan are transferred onto the receiving layer in order and thermally transferred. At this time, since the receiving layer on the paper (plain paper) has a smooth surface regardless of the roughness of the paper surface, a high-quality printed image can be obtained.

FIG. 2 is a block diagram showing a structural example of a thermal transfer color printer according to claim 2 of the present invention.

The thermal transfer color printer shown here is
It has a thermal energy changing means 27. The thermal energy varying means 27 is based on the receiving layer area information from the receiving layer discriminating means 21 so that the energizing time to the thermal head 20 during the thermal transfer of the receiving layer is longer than the energizing time during the thermal transfer of the sublimable ink layer. The gradation control circuit 26 is controlled by the control signal output from the printer control circuit 22. As a result, the transfer heat energy during the thermal transfer of the receiving layer becomes larger than the transfer heat energy during the thermal transfer of the sublimable ink layer.
As a result, the receiving layer penetrates well into the paper (plain paper), and the surface smoothness of the thermally transferred receiving layer is improved.

The energization time to the thermal head 20 during the thermal transfer of the receiving layer is, for example, about twice the energization time during the thermal transfer of the sublimable ink layer. Instead of controlling the energization time, the voltage applied to the thermal head 20 may be variable.

FIG. 3 is a block diagram showing a structural example of a thermal transfer color printer according to claim 3 of the present invention.

The thermal transfer color printer shown here is
It has a temperature detecting means 28 for detecting temperature information from a thermistor in the thermal head 20. The temperature information detected by the temperature detecting means 28 is sent to the printer control circuit 22. The printer control circuit 22 receives the temperature information input from the temperature detecting means 28 during the thermal transfer of the receiving layer and sets the temperature information in the data setting means 2.
Send to 9. The data setting means 29 reduces the setting data when the temperature is high, increases the setting data when the temperature is low, and sends the setting data to the gradation control circuit 26.
The gradation control circuit 26 generates an energization control signal for the thermal head 20 based on the input setting data. As a result, when the temperature of the thermal head 20 is low during thermal transfer of the receiving layer, the thermal energy generated by the thermal head 20 is large, and when the temperature of the thermal head 20 is high, the thermal energy generated by the thermal head 20 is small. As a result, thermal transfer of the receiving layer is performed under uniform temperature conditions without being affected by the temperature of the thermal head 20. Therefore, the transfer efficiency of the receiving layer is improved, and the quality of the transferred image is improved.

[0023]

As described above, in the case of the thermal transfer color printer according to claim 1 of the present invention, when the thermal transfer is performed on the plain paper, the receiving layer is thermally transferred at a high density, so that the surface of the plain paper is rough. However, the surface of the receiving layer becomes smooth. Therefore,
The quality of the printed image formed on the receiving layer is improved.

In the case of the thermal transfer color printer according to the second aspect of the present invention, the receiving layer is thermally transferred to the plain paper with high heat energy, so that the thermally transferred receiving layer is smoothed and the quality of the printed image is improved. To be achieved.

In the case of the thermal transfer color printer according to claim 3 of the present invention, the thermal transfer of the receiving layer is carried out under a uniform temperature condition, the transfer efficiency of the receiving layer is increased, and the quality of the transferred image is improved. It

[Brief description of drawings]

FIG. 1 is a block diagram showing a structural example of a thermal transfer color printer according to claim 1 of the present invention.

FIG. 2 is a block diagram showing a structural example of a thermal transfer color printer according to claim 2 of the present invention.

FIG. 3 is a block diagram showing a structural example of a thermal transfer color printer according to claim 3 of the present invention.

FIG. 4 is an explanatory diagram of an ink sheet used for thermal transfer onto special paper.

FIG. 5 is an explanatory diagram of an ink sheet used for thermal transfer onto plain paper.

[Explanation of symbols]

 10 Ink Sheet 20 Thermal Head 21 Receiving Layer Discriminating Means 23 Conveyance Density Controlling Means 24 Stepping Motor 27 Thermal Energy Changing Means 28 Temperature Detecting Means 29 Data Setting Means

Claims (3)

[Claims] 1. A receptive layer and a sublimable ink layer of each color are sequentially thermally transferred onto plain paper by using an ink sheet in which a receptive layer and a sublimable ink layer of each color are sequentially laminated in a sheet longitudinal direction and a thermal head. A thermal transfer color printer, comprising a receptive layer discriminating means for discriminating an area of the receptive layer in the ink sheet, and based on output data of the receptive layer discriminating means, from the time of transferring the sublimable ink layer at the time of transferring the receptive layer. Also, a thermal transfer color printer characterized in that the thermal transfer color printer is provided with a conveyance density control means for increasing the paper conveyance density. 2. A receptive layer and a sublimable ink layer of each color are sequentially heat-transferred onto plain paper using an ink sheet in which a receptive layer and a sublimable ink layer of each color are sequentially laminated in the sheet longitudinal direction, and a thermal head. A thermal transfer color printer, comprising a receptive layer discriminating means for discriminating an area of the receptive layer in the ink sheet, and based on output data of the receptive layer discriminating means, from the time of transferring the sublimable ink layer at the time of transferring the receptive layer. A thermal transfer color printer comprising: a thermal energy varying means for controlling the thermal head so that the thermal energy for transfer becomes large. 3. A receptive layer and a sublimable ink layer of each color are sequentially thermally transferred onto plain paper by using an ink sheet in which a receptive layer and a sublimable ink layer of each color are sequentially laminated in the sheet longitudinal direction and a thermal head. In a thermal transfer color printer, a temperature detecting means for detecting the temperature of the thermal head, a receiving layer determining means for determining the area of the receiving layer in the ink sheet, and output data of the temperature detecting means and the receiving layer determining means Based on the above, there is provided data setting means for changing the setting data of the transfer heat energy according to the temperature of the thermal head so that the transfer heat energy is made uniform during the transfer of the receiving layer. Thermal transfer color printer.