JP2005274754A - Image forming method using transfer sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming method using a transfer sheet, which allows a toner image to be surely formed on a transfer object material without slipping toner off a transfer layer when cutting out. <P>SOLUTION: The image forming method comprises a heating step of heating at least a part where a toner image is recorded, of the transfer sheet having the toner image recorded thereon, a trimming step of cutting the transfer layer in the part where the image is recorded, to cut it into arbitrary dimensions and shape, and a transfer step of bringing the cut transfer layer to the transfer object material to transfer the toner image to the transfer object layer together with the transfer layer. The part where the toner image is recorded, of the transfer layer is heated to more firmly record the toner image in the transfer layer in the heating step before the trimming step, so that the toner image can be surely formed on the transfer object material without slipping the toner off the transfer layer though the transfer layer is cut in the part where the toner image is recorded, thereafter. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for reliably forming an image on a transfer member using a transfer sheet on which a toner image is recorded without causing any trouble such as separation of the toner image.

  As a method for forming an image on a cloth such as clothing, a method using a transfer sheet, that is, a sheet in which a peelable transfer layer composed of a heat-meltable resin is formed on a base material is widely used. In this method, after forming an image on a transfer layer of a transfer sheet, the transfer layer is melted and peeled off by heating from a substrate and thermally transferred to a transfer material such as a fabric, thereby forming an image on the transfer material. It is. The transfer sheet is easy to record full-color images by a recording device such as a printer or copying machine that records toner images and ink images, and not only has excellent print quality, but is also printed (recorded) directly by a printer. ) Since it is possible to form images on various types of media, image forming methods on various media using such transfer sheets have attracted attention. In recent years, toner images have been produced by color copiers or color laser printers. There has been proposed a method of forming an image on a transfer object using a transfer sheet that can be recorded.

  For example, Japanese Patent Application Laid-Open No. 7-137427 (Patent Document 1) includes three layers of a support layer, a release layer, and a thermal adhesive layer, and for image transfer that defines the thickness of the support layer, thermal adhesive layer, and transfer sheet. A sheet is used to form a toner image on a thermal adhesive layer by a color copying machine, and then the thermal adhesive layer on which the toner image is formed is brought into contact with the surface of the transferred body, so that the thermal adhesive layer is transferred together with the toner image to the transferred body. A method of forming an image by transferring it onto is disclosed.

  Japanese Laid-Open Patent Publication No. 2001-242658 (Patent Document 2) is composed of a base material and a transfer layer that can be peeled from the base material and to which a toner image can be fixed. By using a transfer sheet for an electrophotographic printer that defines an average value of the thickness, a transfer layer on which a recorded image is formed by an electrophotographic printer is in contact with a transfer target, and then thermocompression-bonded. A method is described in which a recorded image is transferred to a transfer medium by peeling the transfer layer.

  In the methods described in these documents, a transfer sheet (or transfer sheet) is used to transfer a toner image recorded together with the transfer layer (or thermal adhesive layer) to a transfer medium, thereby forming an image. In the color copying machine and the electrophotographic printer, the toner is usually attached to a recording medium (for example, a recording sheet or a transfer sheet) based on image information, and then the surface of the recording medium on which the toner is not attached. It has a mechanism (toner fixing mechanism) for fixing the toner to the recording medium by thermocompression bonding. However, the recording medium includes a recording sheet having no transfer layer, a transfer sheet having a transfer layer, and various recording media having different materials and thicknesses, and fixing conditions (thermocompression conditions) of the toner fixing mechanism. Is difficult to set to conditions suitable for all recording media. In general, a transfer sheet is thicker than a recording sheet that does not have a transfer layer, and toner image fixing by the toner fixing mechanism tends to be insufficient. Also, since the transfer layer of the transfer sheet has thermoplasticity, depending on the heat-fixing conditions, the transfer layer may be softened and deformed, or adhesiveness may occur, allowing paper to pass through color copiers and electrophotographic printers. Therefore, the toner fixing mechanism cannot perform sufficient heat pressure bonding for toner fixing. As described above, in the methods of these documents, the contact state between the transfer sheet and the toner image is insufficient, and a part of the transfer sheet on which the image is recorded as an aspect in which the transfer sheet is used to form the toner image on the transfer target. In other words, after a toner image is recorded on the transfer layer of the transfer sheet, the transfer layer (or transfer sheet) is cut out (trimmed) into an arbitrary shape / dimension at the portion where the toner image is recorded, and then cut out. When transferring the transferred sheet (or transfer layer) to the transfer target and forming an image layer on the transfer target, the toner near the cutting site drops off from the transfer layer due to external force during cutting and damages the image There is.

JP-A-7-137427 (Claim 1, paragraph number [0024]) JP 2001-242658 A (Claim 1, paragraph number [0054])

  Accordingly, it is an object of the present invention to provide a method for forming a toner image on a transfer member using a transfer sheet obtained by trimming a transfer sheet on which a toner image is recorded without damaging the image.

  As a result of intensive studies to achieve the above-mentioned problems, the present inventor has transferred the image during trimming by heating the transfer sheet before cutting out and trimming the transfer sheet on which the toner image is recorded into an arbitrary size and shape. The present inventors have found that the toner image recorded on the sheet does not fall off and that the toner image can be transferred onto the transfer material together with the transfer layer of the transfer sheet without damaging the image.

  In other words, the image forming method of the present invention is a method for forming a toner image on a transfer medium using a transfer sheet having a transfer layer that can be transferred to the transfer medium and on which the toner image is recorded. A heating step for heating the transfer layer, a trimming step for cutting the transfer layer at a portion where an image is recorded, and cutting the transfer layer into an arbitrary size and shape, and bringing the cut transfer layer into contact with the transfer target The transfer layer and the transfer step for transferring the toner image to the transfer target are sequentially formed.

  The image forming method of the present invention is a method of forming a toner image on a transfer medium using a transfer sheet that can be transferred to the transfer medium and has a transfer layer on which the toner image is recorded. A heating step in which the transfer layer has thermal adhesiveness and heats the transfer layer; a trimming step in which the transfer layer is cut at a portion where a toner image is recorded and cut into an arbitrary size and shape; A transfer step of bringing the transferred layer into contact with the transfer target and transferring the toner image to the transfer target together with the transfer layer, wherein the transfer step is a surface side where the transfer layer is not in contact The image forming apparatus includes a transfer process in which the transfer target is thermally bonded by heating the transfer target to transfer the toner image together with the transfer layer to the transfer target. In the transfer step, the surface of the transfer layer on which the toner image is not recorded is brought into contact with the transfer target, the transfer layer is temporarily fixed to the transfer target, and then transferred from the surface where the transfer layer is not in contact. It may be constituted by a transfer process in which the toner image is transferred to the transfer target body together with the transfer layer by thermal adhesion by heating the body.

  The toner image may be recorded on the transfer layer by a recording apparatus using an electrophotographic method (for example, a color copying machine or a color laser printer).

  The heating step is a step of heating at least a portion of the transfer layer where the toner image is recorded, and as the heating method, a heating method of partially heating the portion of the transfer layer where the toner image is recorded (For example, a method using a heating member) or a heating method for heating the entire transfer layer (for example, a heating method using a heating furnace) may be used, and the transfer layer is heated. In addition, pressurization (for example, about 980 to 98000 Pa) may be performed. The heating temperature in the heating step may be a temperature that does not deform the shape of the transfer layer (for example, about 60 to 180 ° C.).

  The trimming step is a step of cutting a portion of the transfer layer where the toner image is recorded to form a transfer layer (or transfer sheet) having an arbitrary size and shape, and the cutting method uses shearing force. A cutting method (for example, a cutting method using a cutting plotter) or a cutting method using heat (for example, a cutting method using nichrome wire) may be used.

  The transfer process is a transfer process in which a transfer layer on which a toner image is recorded is brought into contact with a transfer target and the toner image is transferred to the transfer target together with the transfer layer, and the transfer method includes transferring the transfer layer to the transfer target. It may be a transfer method in which a toner image is transferred to a transfer target body together with a transfer layer by heat-bonding by contact with the body and thermocompression bonding, or an adhesive or an adhesive by contacting the transfer layer with the transfer target body It may be a transfer method in which the toner image is transferred to a transfer target body together with the transfer layer by sticking with a transfer layer. The surface side of the transfer layer in contact with the transfer target may be the surface side on which the toner image is recorded, or the surface side on which the toner image is not recorded. When the transfer layer is a non-transparent transfer layer (for example, a transfer layer containing a colorant), an image may be transferred together with the transfer layer by bringing a transfer layer on which no toner image is recorded into contact with the transfer target. . The transfer method in which the transfer layer is brought into contact with the transfer medium and thermally bonded by thermocompression bonding so that the toner image is transferred to the transfer medium together with the transfer layer. After the toner image is recorded by contact with the transfer body and heat-pressed from the surface on which the toner image is recorded, the toner is transferred together with the transfer layer by heat-bonding from the surface of the transfer body that is not in contact with the transfer layer. A transfer method for transferring an image to a transfer target may be used. In the case where the transfer layer brought into contact with the transfer target is subjected to thermocompression bonding, the surface side having releasability of the releasable sheet-like substrate (for example, release paper) is brought into contact with the thermocompression bonding portion of the transfer layer. Then, the transfer layer on which the toner image is recorded may be heat-pressed through the sheet-like substrate having the releasability.

  The toner image recorded on the transfer layer may be recorded on the transfer layer by a recording method using an electrophotographic method (for example, a recording method using a color copying machine or a color laser printer).

  In the image forming method of the present invention, before the transfer layer having an arbitrary size and shape is cut out (or trimmed) from the transfer sheet on which the toner image is recorded, a heating step of heating at least the toner image portion of the transfer layer is provided. Therefore, the toner can be more firmly fixed to the transfer layer, and when the transfer layer is cut out at the portion where the toner image is recorded, the toner does not fall off, and the image can be easily combined with the transfer layer of any size and shape. In addition, the toner image can be formed on the transferred material without damaging the image by transferring the toner image to the transferred material without fail.

  The image forming method of the present invention is a method of forming a toner image on a transfer medium using a transfer sheet that can be transferred to the transfer medium and has a transfer layer on which the toner image is recorded. A heating step of heating a portion of the transfer sheet on which the toner image is recorded, a trimming step of cutting the transfer layer at a portion where the image is recorded and cutting it into an arbitrary size and shape, and the trimmed transfer layer A transfer process is performed in sequence with a transfer process in which the toner image is transferred to the transfer target body together with the transfer layer in contact with the transfer target body. In this image forming method, in the transfer step, the side of the trimmed transfer layer on which the toner image is not recorded is brought into contact with the transfer target, and the surface of the toner image recorded on the surface is subjected to thermocompression bonding via a separator. In the transfer process, after the transfer layer is thermally bonded to the transfer target, the transfer target is further thermally bonded by heating the transfer target from the side where the transfer layer is not in contact, and the toner image is transferred to the transfer target together with the transfer layer. There may be. When the transfer sheet is composed of a base material and a transfer layer that can be peeled off from the base material, the base material is in any of the heating step, the trimming step, and the transfer step. It may be peeled off from the transfer layer, and when the substrate has a role as a support for the transfer layer, it may be peeled off from the transfer layer before and after the transfer step.

The toner image recorded on the transfer layer may be recorded on the transfer layer by a recording method using an electrophotographic method (for example, a color copying machine or a color laser printer).
[Heating process]
The heating step is a step of heating a portion of the transfer layer where the toner image is recorded in order to enhance the adhesion between the toner recorded on the transfer layer and the transfer layer. A method in which the portion of the transfer layer where the toner image is recorded may be partially heated, or a method in which the entire transfer layer is heated may be used. In the heating step, the transfer layer on which the toner image is recorded may be heated and pressurized by the heating method. The adhesion between the toner recorded in the heating step and the transfer layer can be increased, and the toner can be prevented from dropping off around the cutout portion of the trimming step.
(Heating method)
As a heating method for partially heating the portion of the transfer layer on which the toner image is recorded, a heating member, for example, a member (such as an iron or hot press) provided with a heating means on the side of the transfer layer on which the toner image is recorded. Etc.) can be exemplified.

  As a method of heating the entire transfer layer, in addition to the method of bringing the heating member into contact with the surface of the transfer layer on which the toner image is recorded, for example, a transfer sheet on which the toner image is recorded on the transfer layer is used. Examples of the method include heating in a heating furnace.

  The heating temperature in the heating step can be selected in consideration of the thermal characteristics (melting point, softening point, etc.) of the resin constituting the transfer layer and the heating time, and the transfer layer is flattened by thermal deformation. It is preferable to heat at a temperature that does not impair the shape. If the heating temperature is too low, the adhesion between the toner and the transfer layer cannot be increased, and if the heating temperature is too high, the flatness of the transfer layer is impaired and the toner image is distorted. However, defects such as loss of image clarity and loss of image clarity are likely to occur. The heating temperature is, for example, about 60 to 180 ° C, preferably about 80 to 150 ° C, and more preferably about 100 to 130 ° C. The heating time of the heating step can be appropriately set according to the heating temperature.

  In the heating method, if necessary, the surface of the transfer layer on which the toner image is recorded may be pressurized (for example, about 980 to 98000 Pa). By pressing the surface of the transfer layer on which the toner image is recorded, the heating time can be shortened, and by pressing the entire portion of the transfer layer on which the toner image is recorded with a constant pressure, the toner can be reduced. A transfer sheet on which the toner image is firmly recorded by the transfer layer can be obtained without producing a portion where the adhesion between the toner and the transfer layer is partially weak.

[Trimming process]
The trimming step is a step of cutting the portion of the transfer layer where the toner image is recorded, and processing the transfer layer (or transfer sheet) into an arbitrary size and shape to be transferred to the transfer target. As the method, a cutting method using shearing force, a cutting method using heat, or the like may be used. Cutting methods using shear force include, for example, cutting methods using cutting tools such as scissors and cutter knives (including cutting methods using cutting plotters that cut based on cutting position information), water jet cutting methods using high-pressure water flow Etc. can be exemplified. Examples of the cutting method using heat include a cutting method using a heated wire such as a nichrome wire, a cutting method using a heat beam such as a laser beam, and the like.

[Transfer process]
The transfer step is a transfer step in which a transfer layer on which a toner image is recorded is brought into contact with a transfer target member and the toner image is transferred to the transfer target member together with the transfer layer. The transfer method includes transferring the transfer layer to the transfer target layer. It may be a transfer method in which a toner image is transferred to a transfer target body together with a transfer layer by heat-bonding by contact with the body and thermocompression bonding, or an adhesive or an adhesive by contacting the transfer layer with the transfer target body It may be a transfer method in which the toner image is transferred to the transfer target body together with the transfer layer by attaching the toner image. When the transfer layer is a transparent transfer layer, the surface of the transfer sheet on which the toner image is recorded or the back side of the surface on which the toner image is recorded may be brought into contact with the transfer medium. When the transfer layer is a non-transparent transfer layer (for example, a transfer layer containing a colorant), the surface of the transfer layer on which the toner image is not recorded is brought into contact with the transfer target to transfer the image together with the transfer layer. Also good.

  For thermocompression bonding at the time of transfer, a member (for example, an iron or a hot press) provided with a heating means or a pressurizing means may be usually used.

  When heat-pressing the transfer layer brought into contact with the transfer target, the release-side surface side of the sheet-like substrate having releasability (for example, release paper) is brought into contact with the thermo-compression site of the transfer layer. The transfer layer on which the toner image is recorded may be heat-pressed through the sheet-like substrate.

  Examples of the transfer sheet and transfer target used in the image forming method of the present invention are shown below.

  The transfer sheet used in the image forming method of the present invention may be a transfer sheet that can record a toner image and is composed of a transfer layer that can be transferred to a transfer target. A transfer layer that is formed on one surface side of the base material so as to be peelable from the base material, can record a toner image, and can be transferred to a transfer medium. The transfer layer may contain a colorant (such as a pigment or a dye) as necessary.

  Examples of the substrate include papers, cloth (woven fabric, nonwoven fabric, etc.), chemical fiber paper, synthetic paper, plastic film (cellulose acetate film, polyethylene terephthalate film, polyvinylidene fluoride film, etc.) and the like.

  Of these, papers and cloths are preferable from the viewpoint of excellent heat resistance and thermal deformation, and papers can be used from the viewpoints of convenience and economy. Moreover, as long as the base material can be peeled from the transfer layer, the base material may be opaque, or may be translucent or transparent. As the substrate, a releasable substrate, for example, a release treated paper (release paper), a synthetic paper that may be subjected to a release treatment, a chemical fiber paper, or a plastic film is often used.

  The transfer layer may be made of a hot melt adhesive resin. Examples of the hot melt adhesive resin contained in the transfer layer include polyamide resins, thermoplastic polyurethane resins, polyester resins, and olefin resins. The hot melt adhesive resins may be used alone or in combination of two or more.

  The melting point or softening point of the hot-melt adhesive resin is not particularly limited, but is about 40 to 200 ° C, preferably about 60 to 150 ° C. The hot melt adhesive resin has a melting point or softening point (for example, about 100 to 200 ° C., preferably about 110 to 180 ° C., more preferably about 120 to 180 ° C.) higher than the heating temperature for forming the transfer layer. You may be comprised with hot-melt-adhesive resin and hot-melt-adhesive resin which has melting | fusing point (40-80 degreeC, Preferably it is 50-80 degreeC, More preferably, about 60-80 degreeC) below the said heating temperature. .

  The transfer layer may be composed of a film-forming resin component (such as a urethane-based resin, a thermosetting resin, or a crosslinkable resin) in addition to the hot melt adhesive resin.

As the urethane-based resin, a polyester-type urethane-based resin (for example, C2-6 alkanediol such as 1,4-butanediol) using at least a polyester diol (particularly, an aliphatic polyester diol having an aliphatic component as a main reaction component). And C4-12 aliphatic dicarboxylic acids such as adipic acid and polyester diols obtained by reaction with isophthalic acid or phthalic acid. The urethane resin may be used as an organic solvent solution, an aqueous solution, or an aqueous emulsion. By including the urethane resin, the texture (softness) of the transfer layer can be improved.

  Examples of the thermosetting or crosslinkable resin include self-crosslinkable resins (thermoplastic resins having self-crosslinkable groups), such as self-crosslinkable polyester resins, self-crosslinkable polyamide resins, and self-crosslinkable acrylic resins (for example, And acrylic silicone resins), self-crosslinkable olefin resins, and the like.

  In addition, the transfer layer may contain various additives (stabilizers (antioxidants, ultraviolet absorbers, heat stabilizers, etc.), dyes, pigments, antistatic agents, flame retardants, lubricants, antiblocking agents as necessary. , Fillers, colorants, antifoaming agents, applicability improvers, thickeners, etc.).

  Examples of the transfer target include two-dimensional or three-dimensional structures formed of various materials such as fiber, paper, wood, plastic, ceramics, and metal. In the present invention, a cloth (for example, a T-shirt), a plastic film sheet, or paper (particularly a cloth) can be suitably used as the transfer target.

  The image forming method of the present invention can be effectively used as a method for forming a toner image recorded by a recording method such as an electrophotographic method using a transfer sheet on a transfer material such as cloth.

Hereinafter, the present invention will be described in more detail based on examples, but the present invention is not limited to these examples. In the text, “parts” means “parts by weight” unless otherwise specified. Further, the contents of each layer of the transfer sheet used in the examples and comparative examples, and the evaluation method of the toner omission of the toner image formed by the image forming method are as follows.
[Contents of each layer]
(Base material)
Substrate: Release-treated paper (manufactured by Lintec Corporation, SGP85OKT-T, basis weight: 100 g / m ² , thickness: 90 μm)
(Adhesive layer)
Polyester urethane resin solution A [manufactured by Dainichi Seika Kogyo Co., Ltd., Resamine UD1305, solvent: dimethylformamide / methyl ethyl ketone = 40/60 (weight ratio), solid content 50% by weight on the mold release surface side of the base material , 80 parts of softening temperature and polyester urethane resin solution B [manufactured by Dainichi Seika Kogyo Co., Ltd., Resamine ME3119LP, solvent: dimethylformamide / methyl ethyl ketone = 35/65 (weight ratio), solid content 50% by weight, softening Apply a coating solution prepared by adding dimethylformamide to a resin solution mixed with 20 parts of a temperature of 95 ° C.] and adjusting the solid content to 35% by weight, and apply and dry to a dry coating amount of 35 g / m ² to form an adhesive layer. Formed.

(Image receiving layer)
On the adhesive layer, a titanium oxide-containing carbonate urethane resin solution A [manufactured by Dainichi Seika Kogyo Co., Ltd., Seika Seven BS012 (S) white, urethane resin / titanium oxide = 9/1 (weight ratio), solvent : 65 parts by weight of dimethylformamide, solid content 55% by weight and polyester urethane resin solution A [manufactured by Dainichi Seika Kogyo Co., Ltd., Resamine UD1305, solvent: dimethylformamide / methyl ethyl ketone = 40/60 (weight ratio), solid content 50 A coating solution prepared by adding dimethylformamide to a resin solution mixed with 35 parts by weight and a softening temperature of 95 ° C.] was adjusted to a solid content of 30% by weight and coated and dried to a dry coating amount of 40 g / m ^2. Thus, an image receiving layer was formed.
[Toner dropout]
The peripheral portion of the toner image formed on the transfer medium by the image forming methods of the examples and comparative examples was rubbed with a fingertip, and the state of toner dropout was evaluated by visual observation based on the following criteria.

○: No toner dropout ×: Toner dropout Comparative Example 1
A color laser printer (manufactured by Canon Inc., color laser copier CLC1130, cardboard mode: 157 g) is formed on the surface of the image-receiving layer of the transfer sheet in which a transfer layer composed of an adhesive layer and an image-receiving layer is formed on the release treatment surface side of the substrate. / M ² ), and after the toner image is recorded, the image-recorded transfer sheet is cut at the image recording site using a cutting plotter (Roland DG Co., Ltd., CAMM-1). A character-shaped transfer sheet was obtained. Thereafter, the substrate is peeled off from the transfer layer cut into the character shape, and the surface side of the adhesive layer (the surface side of the transfer layer on which no toner image is recorded) is transferred (J6650, manufactured by Arai Seitaro Co., Ltd.). , A T-shirt made of black fabric), and a release sheet (manufactured by LINTEC Co., Ltd., KA7W white (V10), silicon-based mold release treatment, basis weight: 60 g / g) on the side of the transfer sheet on which the toner image is recorded. m ² , thickness: 50 μm) are overlapped with the release processing surface side, and then the surface of the release paper that is not in contact with the transfer sheet is a heat press machine (Okuno Electric Industry Co., Ltd., AF-54T, set temperature) : 120 ° C., pressure condition: 10000 Pa) for 10 seconds to transfer the toner image together with the transfer layer onto the transfer target, and then the release paper was removed from the transfer layer to form a toner image. As a result of evaluating the toner omission state of the formed toner image, there was toner omission and the evaluation was “x”.

Comparative Example 2
After a toner image was recorded on the surface of the image receiving layer of the transfer sheet of Comparative Example 1 using a color copying machine (manufactured by Fuji Xerox Co., Ltd., Document Color 1255CP, thick paper mode: 2), The transfer sheet was cut, and the transfer sheet in the shape of alphabet letter A was transferred to a transfer medium to form a toner image. As a result of evaluating the toner omission state of the formed toner image, there was toner omission and the evaluation was “x”.

Example 1
After recording a toner image on the surface of the image receiving layer of the transfer sheet of Comparative Example 1 in the same manner as in Comparative Example 1, a release paper (KA7W, manufactured by Lintec Co., Ltd.) is formed on the surface side of the image receiving layer of the transfer sheet on which the toner image is recorded. White (V10), silicon-based release treatment, basis weight: 60 g / m ² , thickness: 50 μm) are overlapped, and then heat-pressed from the side of the release paper that is not in contact with the transfer sheet Thermocompression bonding was performed for 10 seconds using a machine (manufactured by Okuno Electric Industry Co., Ltd., AF-54T, set temperature: 120 ° C., pressure condition: 10000 Pa). Thereafter, in the same manner as in Comparative Example 1, the transfer sheet was cut, and the letter-shaped transfer sheet of the alphabet letter A was transferred to the transfer medium to form a toner image. As a result of evaluating the toner omission state of the formed toner image, there was no toner omission and the evaluation was “◯”.

Example 2
After a toner image was recorded on the surface of the image receiving layer of the transfer sheet of Comparative Example 1 in the same manner as in Comparative Example 2, a release paper (KA7W, manufactured by Lintec Corporation) was formed on the surface side of the image receiving layer of the transfer sheet on which the toner image was recorded. White (V10), silicon-based mold release treatment, basis weight: 60 g / m ² , thickness: 50 μm) are overlapped, and then heat-pressed from the side of the release paper that is not in contact with the transfer sheet Thermocompression bonding was performed for 10 seconds using a machine (manufactured by Okuno Electric Industry Co., Ltd., AF-54T, set temperature: 120 ° C., pressure condition: 10000 Pa). Thereafter, in the same manner as in Comparative Example 1, the transfer sheet was cut, and the letter-shaped transfer sheet of the alphabet letter A was transferred to the transfer medium to form a toner image. As a result of evaluating the toner omission state of the formed toner image, there was no toner omission and the evaluation was “◯”.

As is clear from these facts, compared to the image forming method of the comparative example, the image forming method of the example was able to form a toner image in which toner was not dropped on the transfer target.

Claims (2)

  A method of forming a toner image on a transfer medium using a transfer sheet having a transfer layer that can be transferred to the transfer medium and having a toner image recorded thereon, wherein the toner image on the transfer sheet is recorded A heating step for heating the portion that is being cut, a trimming step for cutting the toner image at the portion where the toner image is recorded after the heating step, and cutting the transfer layer into an arbitrary size and shape; An image forming method comprising a transfer step of transferring a toner image together with a transfer layer to a transfer target. Transfer in which the transfer layer has thermal adhesiveness, and the transfer process heat-adheres by transferring from the surface of the transfer target that is not in contact with the transfer layer to transfer the toner image to the transfer target with the transfer layer. The method according to claim 1, wherein the method is a process.