JPH02500099A - Thermal printing method and system - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Thermal printing method and system Technical field The present invention relates to thermal printing, and relates to: 1) printing between an original document and at least one sheet during printing; Concerning an improved system by which good record copies can be made.

Background of the invention In the field of thermal printing, the major constraint on printing behavior is The problem was that it was not possible to make copies of the prints during the production. Early thermal printing system The system is designed to energize and heat specific precise areas of thermal paper or similar recording material. generated readable characters on a sheet of paper using thermal printing elements . Therefore, the single sheet of paper used for it contains a material that responds to heat; This is called a self-contained system.

The thermal printing system then prints two separate sheets of paper or similar recording material. The heat-sensitive reactive material was applied to each sheet of paper using a material containing a heat-reactive material. above it The front or front seat is usually a lightweight tissue type coated with a heat-sensitive material. The second sheet is of the Punto type, which is also coated with a heat-sensitive material. Paper is preferred. For the two sheets, the uncoated side of the Tichy paper is the coated side of the Punto paper. are superimposed so that they are in contact with. The coated side of the tissue paper is a thermal print element. May be placed in close proximity to the child, or in some cases in actual contact with the tissue. . The thermal element is activated to produce a mask sheet and a readable copy. It can be sheeted onto paper and heated to give specific and precise marks or images. Ru.

Instead, the front and back sides of 7471 paper are coated with heat-sensitive material, and the front side is covered with heat-sensitive material. Keep the print head close to each other or in contact with each other, and overlap the Punto paper on the back side. It may be possible to do so. In that case, activate the thermal element and read it in the same way. Even if specific and precise characters or marks are given to the two sheets of paper so that they can be seen clearly, good. The tissue sheet and punto sheet are arranged in a duplicative manner and When the element is activated, the dye applied to the tissue sheet is Imaging is accomplished by transfer of ink or similar material.

The purpose of this invention is to create a mask by transfer and use thermal paper or non-coated tissue to create a mask. – A simple and inexpensive thermal printer that uses paper to make at least one copy. The purpose of this invention is to provide a method and system for

Therefore, according to the present invention, an image is formed on the second substrate disposed adjacent to the first substrate. A method of selectively transferring a coating material forming a thermal transfer coating material to a first substrate. A thermal printing method that involves the process of heating a material to form multiple copies of the image. The coating material includes a material that absorbs near-infrared energy, and the method further includes: places a copy medium adjacent to the second substrate, and applies near-infrared energy to the copy medium. heating the image on the second substrate and applying the image to the copy medium. A thermal printing method including steps of transferring an image is provided.

According to another aspect of the invention, a first medium having a coating material; selectively heating an adjacent second medium and a part of the coating material of the first medium; a means for transferring the coating material onto the second medium to form an image; the system, wherein the coating material is selected to include a near-infrared absorbing material; The system further heats a copy medium adjacent the second medium and the second medium. generating near-infrared radiation to transfer the applied material image to the copy medium. A thermal copying system is provided.

Brief description of the drawing The invention will now be described in detail by way of example with reference to the accompanying drawings, in which: FIG.

FIG. 1 is a schematic diagram of the first step of the thermal copy system of the present invention. Ru.

FIG. 2 is a schematic diagram illustrating one method for performing multi-sheet copying.

FIG. 3 is a schematic diagram illustrating another method for performing multi-sheet copying.

BEST MODE FOR CARRYING OUT THE INVENTION 1 and 2 are schematic diagrams showing the concept of an embodiment of the first method of the present invention, The thermal transfer ribbon 10 includes a substrate 12 and a thermal transfer coating material or layer 14. It consists of In the first step of the method, thermal print head 16 prints image 22. A recording medium comprising a substrate 20 having a coating material 21 that receives a coating material 14 during formation. Heat is applied to transfer a portion of the coating material 14 to the body.

As seen in FIG. 2, the second step includes the use of a recording medium 18 and a substrate 28. a thermal paper 26 comprising a coated material 30 that receives the image 22 in one manner or manner; heat from a near-infrared lamp 24 is provided to form or generate an image 22 on the Including process.

A second embodiment method of the invention is shown in FIGS. 1 and 3, in which the first step, i.e. The same process as that used for the recording medium 18 is used, followed by the use of the near-infrared lamp 24. The second step of supplying heat from the coating material 21 is to receive the image 36 from the coating material 21 onto the substrate 20. The image 22 is transferred to the back side 34 of a translucent paper 32 comprising a second substrate 34.

Near-infrared radiation is defined as that part of the electromagnetic spectrum between wavelengths of 0.8 and 3 microns. , or a range between s, ooo angstroms & 30,000 angstroms It is defined as invisible radiation having a wavelength of .

The components of the transfer coating material 14 for the substrate 12 are hydrocarbon or polyethylene resins. , a wax of 100% or higher, and a magnetic oxide or other infrared absorbing pigment. Ru. Examples of preferred compositions of coating materials are as follows.

Material dry weight percentage range Ceramide wax 19.75% 15-25 WB-17 wax 19. 75 15~25 polyethylene (AC-617) s, s O4 ~ 8 picotes Cus-754,703~7 Iron oxide 48.00 40-60 Gloss Lecithin 1.00 1-2 Slip aid 1.00 1~2 Constituent components 21 of the coating material for the substrate 20 include a dye, a phenolic resin, and a wax. Consists of clay.

Table 2 Material dry weight percentage range Chromogenic black dye 6 1 5 to 7 Uino! 107.12% 5otids 10.0 5~15 Nopco Nl17W O, 20~lN1aproof 08 0.1 0” ITino patPT 4.0 3-5 4'4' Inzolopyri Deedipheno-'L/22.2 18~25Acra wax 8.0 6-10 Armid HT 1.0 0.5-1.5 Ansittx Clay 43.5 38~50Zinc 5tearat@2.0 1~3Titanox 2131 3.0 2-4 Blue dye acceptable imaging in thermal paper systems However, black dye also has good environmental stability (fading resistance). This is considered to be a preferable composition.

The thermal transfer coating material 14 is applied to the paste sheet 12 in the formation of the thermal transfer ribbon 10. be provided. The receiving sheet 18 is set on the board 20 and the table 2 above. coating material component 21. The coating material 14 is applied onto the sheet 12 with a thickness of 1.36 to 2.27 kg” land dry weight/ream, and the coating material 21 is on the sheet 20. 0.68~0.9 kl! It is in the range of dry weight/ream.

The multiple copy image concept according to the present invention uses a combination of two techniques. 1st The first technique used in the first step 8 (Fig. 1) of both the second and second embodiments is near-infrared absorption. A thermal transfer ribbon 10 having a coating material 14 containing a transfer material is printed onto the substrate. including the formation of a thermal print or image. The second step of the first embodiment or The phase is thermally bonded to a substrate and a material such as thermal paper 26 with the image generated in the first step. The sand inch consisting of the sheet receiving the image on a paper (FIG. 2). In the second step of the second embodiment , translucent paper 32 can be used instead of thermal paper to run the sandwich. The image is transferred to semi-transparent paper to form a visible image on the paper (Figure 3). to be accomplished.

The main concept of this invention is to rely on the absorption characteristics of near-infrared rays in transfer printing. In the case of the second embodiment, heating the circle image causes the heat-sensitive material on the front side to react, thereby The process is to form an image that can be read through a translucent sheet. Receipt The image 22 generated on the substrate 20 (FIG. 1) is heated when it is applied to the near-IR lanzo 24. Requires the presence of near-IR absorbing material such that Thermal used in the first embodiment In the case of paper 26, thermally responsive materials are combined with hot dots or hot characters. This creates a clean, precise image on the paper (Figure 2).

In the case of a translucent sheet 32 that does not contain coating material, the translucent sheet is removed from the image receiving sheet 18. A partial transfer of the heat-responsive material is made to the back side of the sheet and form a readable image.

This invention does not use the thick sensitive materials currently used for multiple copy printing. A method is provided for making multiple copies using a thermal printing device.

In various experiences completed when using this invention, 10.88 kg application sheet ) (60clrLX 92cm) when used as thermal paper, the image A readable copy occurred. This invention can be placed inside the box of a thermal transfer printer. The only device that requires this is the near IR lamp '24, so it is It is simple and practical because it uses the necessary hardware.

The various pigments used in the thermal transfer coating layer 14 may further include those listed below. Ce Sera Mido wax is Gtyc.

Derived from amide wax available from Chemicats + Inc. WB-17 is a fatty acid produced by Petrotite Corporation. It is an oxidized isocyanated hydrocarbon wax that can be purchased from AC-61 ’7 is available from Attied Chemical Corporation. It is a polyethylene of molecular weight Piccotex-75 (Piccotex-75 ) is a robust color-stable product that can be purchased from Hercutes + Inc. styrene copolymer resin.

Iron oxide can be purchased from BASF, and gloss lecithin is available from Capricorn Chem. It is a wet oil extracted from soybeans from icat. Slip aid is Dan xylene polymers or high melting point polymers available from Produ, ets. It is a 20% dispersant of polyethylene wax. Phenol-based glue active material Bispheno-/l/ (4,4-Inglobilidene Siphenol) as can be purchased from Dow Chemicat Company. Floran-based dyeing The black color forming the material is C1ba - P from Geigy Corporation. From ergascript or Yamada Chemjcat Company 5205 or N-102 from Hitton-Dauis Company and Vinotl 07 is a polyvinyl eyelid aluminum used as a bonding material. It's a call. Acrawax C is Gtyc.

Inc., synthetic wax dust, amide wax from Armeur Che Am1dHT or Armosjip 18 from micat Company. Ru. The filler is calcium carbonate from Georgia Marbte Company. Ansjtex C1 from Engethard Corporation AY is fine. Nopc.

NDW is a glycol group from Diamond Shamrock Corp. It is deformed and N1aproof O8 is N1acet Carp.

Sodium ethylhexyl sulfate used as a wetting agent from Ti nopatPT is a fluorescent product from Ciba-Geig) Corporation. It is a brightening agent. Titanium dioxide is manufactured by N, L, Industries (Nati Zinc is a white pigment from Zinc 5tearate is a durable material from Witeo Chemicat Company. Used as an adhesive.

international search report llll-Sakaki 1■＾----1 Shin@, PCT/υS 8g102230SA 2 4903

Claims (10)

[Claims] 1. A plurality of copy images ( 22) for selectively transferring a coating layer to form a first substrate (12); thermal transfer coating layer (14) of the multiple copy images; A print forming method, wherein the coating layer (14) is made of a near-infrared energy absorbing material. The method further includes copy media (26, 3) adjacent the second substrate (18). 2) and apply near-infrared energy to the copy medium (26, 32) to copy the copy medium (26, 32). The image (22) is heated on the second substrate (18) and the image (22) is placed on the copy medium (26, 32). A method for forming a thermal print, including the steps of transferring an image (22). 2. The first substrate (12) having the thermal transfer coating layer (14) is a transfer ribbon. 2. The method according to claim 1, wherein: 3. Said second substrate (18) includes a thermochromic coating (21) The method according to claim 1. 4. The copy medium (26) is thermal paper and the image is attached to the second substrate (1). 8) The image is transferred to the thermal paper by the heat generated in the area of the image. The method according to claim 1 or 2. 5. The copy medium (32) is translucent paper and the image is attached to the second substrate (18). ) onto the translucent paper by transfer of the coating material from The method according to claim 1 or 2. 6. a first medium (12) having a coating (14); 2) a second medium (18) adjacent to the second medium (18), and a coating on the second medium (18). said coating (12) of said first medium (12) for transferring material to form an image; 14) A thermal copying system comprising means for selectively heating said copying system. the second medium is selected to include a near-infrared absorbing material; a copy medium (26, 32) adjacent to the body (18) and said second medium (18); A nearby device for heating and transferring the coating image to the copy medium (26, 32). and means for generating infrared energy. 7. The coating (14) of the first medium (12) comprises wax and hydrocarbon resin. Claim 6 comprising fat and a magnetic oxide mixed with a mineral spirit solvent. The system described. 8. The coating (14) of said first medium (12) has about 15-25% Ami de wax, about 15-25% synthetic wax, and about 4-8% polyethylene 7. The system of claim 6, comprising a resin and about 40-60% magnetic oxide. 9. The coating (14) of said first medium (12) also comprises about 3-7% copolymer. Polymeric resin, about 1-2% wetting agent, and about 1-2% xylene. The system according to claim 6, further comprising a wax dispersant. 10. The coating (21) of said second medium (18) contains approximately 6-10% synthetic wax. about 2% to 4% white pigment, about 38% to 50% filler, and about 5% to 7% color. Basic dye, about 5-15% polyvinyl alcohol, and about 3-5% fluorescence enhancement. 7. The system of claim 6, comprising a brightening agent and about 18-25% color former.