JP6136560B2 - Thermal head cleaning sheet and thermal head cleaning method - Google Patents

Description

  The present invention relates to a cleaning tape for a thermal head of a thermal transfer printer used for thermal transfer recording.

  As a method for obtaining a print from digital information obtained by a digital camera or the like, a thermal transfer system is often used. To obtain a print, a thermal head is used from a thermal transfer medium that is part-coated with a magenta colorant, a cyan colorant, a yellow colorant, and a black colorant in accordance with pixel information for each color separated into three primary colors. There is a system in which each color component is thermally transferred to a transfer image receiving medium.

  At this time, in the thermal printer, the thermal head is always in contact with the film back coat surface, the thermal head and the film back coat are rubbed, and the back coat components adhere to and adhere to the thermal head. It is the cause.

  Deposits on the thermal head are fixed by heat and need to be removed by polishing. For the purpose of polishing removal, a high-hardness filler is added to improve the polishing performance. However, the thermal head itself is worn (Patent Document 1).

  Silica is often used as a filler for removing the adhered foreign matter, but since silica has a Mohs hardness as high as 7, it also wears the thermal head, causing a reduction in print quality.

  If a low-hardness filler is added to reduce the wear of the thermal head, the deposit cannot be removed, and it is very difficult to achieve both the removal of the deposit and the reduction of the wear of the thermal head.

JP-A-5-116428

  To provide a thermal head cleaning sheet that can steadily remove deposits on the thermal head fixed by heat, reduce thermal head wear due to a problematic cleaning sheet, and cause no degradation in print quality. It is in.

As a means for solving the above problems, the invention described in claim 1 is attached to a thermal head of a thermal transfer printer for performing heating according to an image signal by a thermal head and recording an image on a thermal transfer image receiving material. A thermal head cleaning sheet for removing deposits
An abrasive layer provided on the sheet substrate, the polishing layer contains a surfactant and a filler in the polyester resin, Mohs hardness of 7 or more high hardness filler and Mohs hardness fillers is 1 to 3 mixture of low hardness filler The ratio of the low-hardness filler to the total filler is 20 to 80% by mass , the high-hardness filler is silica having an average particle diameter of 2 μm, and the low-hardness filler is calcium carbonate having an average particle diameter of 2 μm. This is a thermal head cleaning sheet.

According to a second aspect of the present invention, there is provided a thermal head cleaning method, wherein the thermal head cleaning using the thermal head cleaning sheet according to the first aspect is performed separately from image printing .

  By using the thermal head cleaning sheet of the present invention, it is possible to steadily remove foreign matter adhering to the thermal head without deteriorating the cleaning capability, suppressing the thermal head wear, which has been a problem in the past, and printing quality. Can be eliminated.

It is the conceptual diagram which showed the cross section of the cleaning sheet for thermal heads of this invention. It is a conceptual diagram showing a mechanism for recording an image from a thermal transfer medium onto a thermal transfer image receiving material by heating of a thermal head. It is the conceptual diagram which showed the thermal transfer medium. FIG. 5 is a conceptual diagram showing a mechanism for recording an image from a thermal transfer medium onto a thermal transfer image receiving material and a thermal head cleaning mechanism by heating the thermal head.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. FIG. 1 is a sectional view showing a cleaning sheet for a thermal head according to the present invention. A polishing layer 1 is provided on a sheet base material 2, and the Mohs hardness is 7 or more as an abrasive contained in the polishing layer 1. A high-hardness filler and a low-hardness filler having a Mohs hardness of 1 to 3 are used.

FIG. 2 shows a state in which an image is recorded from the thermal transfer medium to the thermal transfer image receiving medium. The thermal head 13 is always in contact with the backcoat layer 5 on the back surface of the substrate of the thermal transfer medium, and the thermal head 13 and the backcoat layer are The components of the back coat layer 5 are rubbed and adhered to and adhered to the thermal head 13, which causes a decrease in print quality.
FIG. 3 shows a thermal transfer medium 11. In general, when a color image is recorded, a magenta coloring material 6, a cyan coloring material 7, a yellow coloring material 8, and a black coloring material 9 are part-coated. Thus, a magenta image, a cyan image, a yellow image, and a black image are printed in this order, and in the case of character information, a thermal transfer medium coated only with the black coloring material 9 is used.

FIG. 4 shows a mechanism for recording an image from the thermal transfer medium 11 to the thermal transfer image receiving medium 12 by heating the thermal head 13 and a cleaning mechanism for the thermal head 13. In the case of image printing, the thermal transfer medium 11 is used. When the thermal head 13 is cleaned, the thermal head cleaning sheet 10 is used. Generally, printing and cleaning can be switched by replacing the cassette.

  The polishing layer 1 is formed by applying a coating solution prepared by adding a filler, a surfactant, and, if necessary, a curing agent, an antistatic agent, etc. to a resin solution and kneading and drying and solidifying it. Is done.

  Silica is often used as the filler, but since silica has a Mohs hardness of 7, the thermal head 13 is polished during the cleaning operation, changing the shape of the thermal head tip, and printing. This will result in quality degradation.

  As a result of various investigations, by adding a filler having a Mohs hardness of 1 or more and 3 or less, the function of removing foreign matter adhered to and adhered to the thermal head 13 is not degraded, and the thermal head 13 is worn away. It was found that it can be reduced.

  Hereinafter, based on an Example and a comparative example, the effect of this invention is demonstrated.

Silica Mo scan hardness is high curing filler 7 as a filler, Mohs hardness was prepared using the following ratio of the polishing layer coating solution using calcium carbonate is a low hardness filler 2.
Polyester resin (byron 30 manufactured by Toyobo Co., Ltd.) 60 parts by mass Phosphate ester surfactant (Pricesurf A208 manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) 2 parts by mass silica (average particle size 2 μm) 8 parts by mass calcium carbonate (average particle size 2 μm) 2 parts by mass Methyl ethyl ketone 14 parts by mass Toluene 14 parts by mass is applied to a PET film substrate having a thickness of 12 μm, and is heated and dried to have a polishing layer 1 having a thickness of 1 μm. Sheet 10 was obtained.

Similarly, the silica Mo scan hardness is high curing filler 7 as a filler, Mohs hardness was prepared using the following ratio of the polishing layer coating solution using calcium carbonate is a low hardness filler 2.
Polyester resin (Byron 30 manufactured by Toyobo Co., Ltd.) 60 parts by mass Phosphate ester surfactant (Pricesurf A208 manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) 2 parts by mass silica (average particle size 2 μm) 5 parts by mass calcium carbonate (average particle size 2 μm) 5 parts by mass methyl ethyl ketone 14 parts by mass Toluene 14 parts by mass is applied to a PET film substrate having a thickness of 12 μm, and is heated and dried to have a polishing layer 1 having a thickness of 1 μm. Sheet 10 was obtained.

Similarly, the silica Mo scan hardness is high curing filler 7 as a filler, Mohs hardness was prepared using the following ratio of the polishing layer coating solution using calcium carbonate is a low hardness filler 2.
Polyester resin (Byron 30 manufactured by Toyobo Co., Ltd.) 60 parts by mass Phosphate-based surfactant (Pricesurf A208 manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) 2 parts by mass silica (average particle size 2 μm) 2 parts by mass calcium carbonate (average particle size 2 μm) 8 parts by mass Methyl ethyl ketone 14 parts by mass Toluene 14 parts by mass is applied to a PET film substrate having a thickness of 12 μm and is heated and dried to have a polishing layer 1 having a thickness of 1 μm. Sheet 10 was obtained.

<Comparative Example 1>
As a comparative example, a polishing layer coating solution using only silica, which is a conventionally used high hardness filler, was adjusted at the following ratio.
Polyester resin (Byron 30 manufactured by Toyobo Co., Ltd.) 60 parts by mass Phosphate ester surfactant (Pricesurf A208 manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) 2 parts by mass Silica (average particle size 2 μm) 10 parts by mass Methyl ethyl ketone 14 parts by mass Toluene 14 parts by mass Was formed into a mixed coating solution, applied to a PET film substrate having a thickness of 12 μm, and heat drying to obtain a fourth thermal head cleaning sheet 10 having a polishing layer 1 having a thickness of 1 μm.

<Comparative example 2>
As a comparative example, a polishing layer coating solution using only calcium carbonate, which is a low hardness filler, was prepared at the following ratio without using a high hardness filler.
Polyester resin (Byron 30 manufactured by Toyobo Co., Ltd.) 60 parts by mass Phosphate ester surfactant (Price Surf A208, manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) 2 parts by mass Calcium carbonate (average particle size 2 μm) 10 parts by mass Methyl ethyl ketone 14 parts by mass Toluene 14 masses The part was mixed and mixed and applied to a PET film substrate having a thickness of 12 μm, and a fifth thermal head cleaning sheet 10 having a polishing layer 1 having a thickness of 1 μm was obtained by heat drying.

<Evaluation>
Using the five types of thermal head cleaning sheets obtained with the above composition, the degree of deposit removal on the thermal head and the amount of thermal head wear were measured.

  As a confirmation method, print a large number of sheets continuously, adhere deposits to the thermal head, visually check the degree of residue removal, and check the amount of wear by checking the shape of the front and back with a laser microscope. Measurements were performed and the results are shown in Table 1.

高硬度フィラーであるシリカと低硬度フィラーである炭酸カルシウムを混合した実施例ではサーマルヘッドの磨耗は見られず、付着物除去との両立が可能であった。一方、高硬度フィラーであるシリカ単体を用いた比較例１は磨耗量が多く、低硬度フィラーである炭酸カルシウム単体では付着物の除去が不足していた。

In the example in which silica, which is a high hardness filler, and calcium carbonate, which is a low hardness filler, were mixed, the thermal head was not worn, and it was possible to achieve both adhesion removal. On the other hand, Comparative Example 1 using silica alone, which is a high-hardness filler, has a large amount of wear, and calcium carbonate alone, which is a low-hardness filler, has insufficient removal of deposits.

DESCRIPTION OF SYMBOLS 1 ... Polishing layer 2 ... Sheet base material 3 ... Colorant 4 ... Image receiving layer 5 ... Backcoat layer 6 ... Red colorant 7 ... Green colorant 8 ... Blue coloring material 9 ... Black coloring material 10 ... Thermal head cleaning sheet 11 ... Thermal transfer medium 12 ... Thermal transfer image receiving medium 13 ... Thermal head

Claims (2)

A thermal head cleaning sheet for removing deposits adhering to a thermal head of a thermal transfer printer for recording an image on a thermal transfer image receiving material by heating according to an image signal by a thermal head,
An abrasive layer provided on the sheet substrate, the polishing layer contains a surfactant and a filler in the polyester resin, Mohs hardness of 7 or more high hardness filler and Mohs hardness fillers is 1 to 3 mixture of low hardness filler The ratio of the low-hardness filler to the total filler is 20 to 80% by mass , the high-hardness filler is silica having an average particle diameter of 2 μm, and the low-hardness filler is calcium carbonate having an average particle diameter of 2 μm. Cleaning sheet for thermal head. A thermal head cleaning method, wherein cleaning of the thermal head using the thermal head cleaning sheet according to claim 1 is performed separately from image printing .

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