JPH03240565A - Recorder - Google Patents

Abstract

PURPOSE:To perfectly clean the surface of an intermediate transfer medium to perform a high-image quality recording by a method wherein the intermediate transfer medium is cleaned by removing ink remaining on the intermediate transfer medium onto an ink sheet also used for recording. CONSTITUTION:When an ink image 13 formed on an intermediate transfer medium 6 is transferred to recording paper 12, hot melt ink 4 of the ink image 13 does not substantially remain on the medium 6 after transfer, but in some cases wherein the surface roughness of the recording paper 12 is very high, small pixels of the ink image cannot be transferred but remain on the medium 6. At this time, as the medium 6 rotates, remaining ink 14 on the medium 6 is carried to a position corresponding to an ink sheet 3 used for recording and a pressure roller 7. Here, the medium 6 abuts on the ink sheet 3 and is depressed by the pressure roller 7. At this time, since the medium 6 is abutted on the ink sheet 3 having a surface roughness not so high as the recording paper 12 and a sufficient area, all the remaining ink 14 adheres on the ink sheet 3. In this manner, the medium 6 is cleaned.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a recording device used in printers, copying machines, etc. for recording characters, images, etc. on recording paper.

2. Description of the Related Art Recording apparatuses that record by melting thermofusible ink using heat and transferring the ink to a recording paper or the like are widely used. An example of the recording apparatus described above will be described below with reference to the drawings. FIG. 7 is a diagram showing an example of a conventional recording device. In the figure, 31 is a thermal head, 32 is a heating element, and 33 is a belt-shaped intermediate transfer medium 34.
35 is a toner, 36 and 37 are heating rollers, 38 is a toner image recorded on the intermediate transfer medium 33, and 39 is a recording paper 40 is a cleaning belt. ” In the configuration as described in Section 2, the magnet roller 3
The toner 35 supported on the circumference of the roller 4 is melted by the heat of the heating element 32 of the thermal head 31 and transferred onto the intermediate transfer medium 33 to form a toner image 38. The toner image 38 is supported on the intermediate transfer medium 33 and transferred to the heating roller 36.
carried to the place. Here, after the toner image 38 (Y) is remelted by the heat from the heating roller 36, it is transferred to the recording paper 3.
9 and transferred onto recording paper 39. Thereafter, the toner image 38 remaining on the intermediate transfer medium 33 after being transferred to the recording paper 39 is heated by a heating roller 37 and then removed by being twisted by a cleaning belt 40. (For example, JP-A-54-1273
Publication No. 34) Problems to be Solved by the Invention (7However, according to a recording device such as the J Biped,
A special cleaning sheet was required, making the system complex and expensive.Furthermore, the toner remaining on the intermediate transfer medium was heated and then rubbed against the cleaning sheet. The toner on the intermediate transfer medium is only removed and not completely removed.

As a result, toner remains on the intermediate transfer medium even after cleaning, and this toner is transferred to the recording paper during the next recording, reducing the quality of recording.The present invention solves the above problems. The present invention solves the problems and provides a recording device that is simple in configuration and inexpensive, eliminating the need for a special sheet dedicated to reading. Mana The present invention provides a recording device that completely cleans an intermediate transfer medium and provides high recording quality.

Means for Solving the Problems In order to solve the above-mentioned problems, the recording apparatus of the present invention (upper intermediate transfer medium) is configured to remove residual ink from the 6 onto an ink sheet also used for recording to clean the intermediate transfer medium. In addition, the recording device of the present invention heats and keeps the intermediate transfer medium at a predetermined temperature so that the residual ink on the intermediate transfer medium or the heat-melting or heat-softening ink on the ink sheet has adhesive properties. The recording apparatus of the present invention is configured to clean the intermediate transfer medium by using an unused area of the ink sheet. .Furthermore, the recording device of the present invention includes:
The intermediate transfer medium is configured to be cleaned in a color area where an image is first formed on the intermediate transfer medium during multicolor recording.

Effects of the present invention (above) With the above-described configuration, the ink sheet used for recording is also used for cleaning the intermediate transfer medium. Therefore, a special sheet for cleaning is not required, and a recording device with a simple configuration and low cost can be provided. Furthermore, the recording apparatus of the present invention is configured to heat and keep the intermediate transfer medium at a temperature at which the heat-melting or heat-softening ink has adhesive properties, so that residual ink on the intermediate transfer medium is can be easily adhered to hot melt or heat softenable ink on an ink sheet.

Therefore, the residual ink on the intermediate transfer medium can be peeled off onto the ink sheet, and the residual ink can be removed cleanly, allowing recording to be performed without adversely affecting subsequent recording or transfer.

Therefore, according to the present invention, it is possible to provide a recording apparatus that can perform good cleaning of an intermediate transfer medium and perform recording of good quality.

Furthermore, the recording device of the present invention is configured to perform cleaning using the unused area of the ink sheet (＼ forming an image on the intermediate transfer medium after cleaning or at the same time as cleaning). Therefore, it is possible to provide a recording device that can easily complete cleaning without wasting time without rewinding the ink sheet or providing an area dedicated to cleaning on the ink sheet.Furthermore, the recording device of the present invention can be provided. Use an ink whose adhesive strength is pressure dependent.
When performing color recording, the intermediate transfer medium can be cleaned by recording with a pressure that produces a sufficiently large adhesive force only when forming an image with the first color of ink. The configuration is such that recording is performed using low pressure and cleaning is not performed. This class
In order to perform color recording, images of multiple colors are overwritten on an intermediate transfer medium, and the image formed on the intermediate transfer medium is peeled off after being applied to the next color ink sheet. Therefore, it is possible to provide a recording apparatus that can also overwrite color images on an intermediate transfer medium while cleaning the intermediate transfer medium according to the present invention. In addition, the color ink sheet used in the recording device of the present invention is made of materials such that at a predetermined temperature and pressure, the ink corresponding to the first color has adhesive strength, but the ink corresponding to the second and subsequent colors does not have adhesive strength. The recording apparatus of the present invention is configured such that the intermediate transfer medium is kept at the predetermined temperature and the recording head is pressed against the intermediate transfer medium at the predetermined pressure Q-0-. In this way, when recording △color, the intermediate transfer medium is cleaned only when recording the first color without any special operation, and when recording the second color or later, it is possible to overwrite the image that has already been recorded. , it is possible to provide a recording apparatus that can also overwrite color images on an intermediate transfer medium while cleaning the intermediate transfer medium.

EXAMPLE A recording apparatus according to a first example of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a schematic configuration of a recording apparatus according to a first embodiment of the present invention. In FIG. 1, reference numeral 1 denotes a thermal recording head, and at its tip end heating elements 2, which are made of resistors and generate heat when energized, are arranged in a row. 3 is an ink sheet, and the surface of the ink sheet 3 is melted or softened by heat (hereinafter referred to as melting).
A heat-melting ink 4 whose viscosity decreases is applied.

Reference numeral 5 designates an intermediate transfer drum, on the surface of which is provided an intermediate transfer medium 6 made of silicone rubber that has a weak adhesive force with the heat-melting ink 4. The hardness of rubber is 30-7
Although it is desirable that the hardness of the rubber is 0 degrees and the rubber thickness is 0.2 mm or more, in this embodiment, a rubber hardness of 50 degrees and a rubber pressure contact of 1 mm is used. A sheet pressure roller 7 presses the ink sheet 3 against the intermediate transfer medium 6. A pressure roller 10 is configured to press the recording paper 12 against the intermediate transfer medium 6 with a predetermined pressure during ink transfer.

Next, the operation of the recording apparatus of this embodiment will be explained. In FIG. 1, a thermal recording head 1 is pressed against an intermediate transfer drum 5 with an ink sheet 3 in between. In this state, the intermediate transfer drum 5 is rotated in the direction of arrow A shown in the figure, and the ink sheet 3 is moved in the direction of arrow B shown so that the relative speed with respect to the intermediate transfer medium 6 becomes zero. At this time, a drive signal is applied to the thermal recording head 1 from a control device (not shown), and the heating element 2 at the tip of the thermal recording head 1 generates heat in accordance with the image pattern. The ink sheet 3 is configured to be separated from the intermediate transfer medium 6 immediately after recording by the thermal recording head 1 1 2 . As a result, the heat-melting ink 4 heated by the thermal recording head 1 remains in a low viscosity state, and the ink sheet 3
is peeled off from the intermediate transfer medium 6, and the heat-melting ink 4 is transferred to the intermediate transfer medium 6.

FIG. 3 is a partially enlarged view showing a state in which the heat-melting ink 4 is transferred to the intermediate transfer medium 6. Kokogen intermediate transfer medium 6
is made of silicone rubber, which has a weak adhesion to the heat-melt ink 4, but when the heat-melt ink 4 is in a low viscosity state (above), the mechanical strength of the heat-melt ink 4 is It becomes weaker than the adhesive force with the fusible ink 4 and weaker than the adhesive force between the hot fusible ink 4 and the base of the ink sheet 3, and also in the solidified state of the hot fusible ink 4 (upper intermediate transfer medium 6). and hot melt ink 4
The respective materials are arranged so that the adhesive force between the hot-melt ink 4 and the base material of the ink sheet 3 is weaker than the mechanical strength of the hot-melt ink 4 and weaker than the adhesive force between the hot-melt ink 4 and the base material of the ink sheet 3. Selected. Further, a material is selected for the heat-melting ink 4 such that its adhesive strength increases when pressure is applied. Therefore, intermediate transfer medium 6
Since the heat-melting ink 4 is in a low viscosity state when the ink sheet 3 is separated from the ink sheet 3, the heat-melting ink 4 in the heated portion
is divided in the thickness direction and transferred onto an intermediate transfer medium 6 and an ink sheet 3 as shown in FIG. here,
It is necessary to peel off the ink sheet 3 (heat-melting ink 4) in a low viscosity state.Intermediate transfer medium 6
The ink image 13 recorded on the intermediate transfer medium 6 is sequentially moved in the direction of the arrow hole shown in FIG. 1 while being held on the intermediate transfer medium 6.

The operation of recording an ink image on the intermediate transfer medium 6 is performed by the above-described operation. Next, the operation of transferring the ink image 13 formed as described above onto the recording paper will be explained. The ink image 13 (top) recorded on the intermediate transfer medium 6 is moved to a position where it contacts the pressure roller 10 after recording, and is joined to the recording paper 12 fed by a paper feeding means (not shown). When the recording paper 12 and the ink image 13 are joined, almost the entire amount of the ink image 13 on the intermediate transfer medium 6 is transferred to the recording paper 12 side. When 3-4 is joined to the recording paper 12, it adheres to the ink image 13 due to the pressure of the suppression roller 10.The length of force at which the ink image 13 adheres to the recording paper 12 due to this adhesive force is due to the pressing force of the pressure roller 1°. When the transfer pressure is set to a pressure such that the adhesive force between the ink image 13 and the recording paper 12 is greater than the adhesive force between the ink image 13 and the intermediate transfer medium 6, the ink image I3 attached to the recording paper I2 has a thickness equal to that of the ink. The ink image 13 is peeled off from the surface of the intermediate transfer medium 6 and transferred onto the recording paper 12 without being separated in the direction.This pressure is greater than the pressure exerted by the thermal recording head 1. It is preferable that the material is elastic so that the heat-melting ink 4 can follow the unevenness of the recording paper 12.As described above, the ink image 13 formed on the intermediate transfer medium 6 is formed on the recording paper 12. As described above, ink image 1
The thermofusible ink 4 of the ink image 13 basically does not remain on the intermediate transfer medium 6 after the transfer, but if the surface roughness of the recording paper 12 is very rough, the thermofusible ink 4 of the ink image 13 will not remain on the intermediate transfer medium 6 after the transfer. In some cases, the ink image of particularly small pixels cannot be transferred to the recording paper 12 and remains on the intermediate transfer medium 6 because the unevenness of the surface of the recording paper 12 cannot be sufficiently imitated. Furthermore, if a recording paper 12 that is smaller than the image range of the ink image 13 is mistakenly used, the ink of the ink image 13 outside the range transferred to the transfer recording paper 12 will remain on the intermediate transfer medium 6. Further, even if the recording paper 12 has a hole or an edge of the recording paper 12 is chipped, the ink of the ink image 13 will remain on the intermediate transfer medium 6 in the same way. In this way, when there is residual ink on the intermediate transfer medium 6, it is necessary to clean the intermediate transfer medium 6, and the cleaning operation for cleaning the intermediate transfer medium 6 will be described below with reference to FIG. The ink 14 remaining on the intermediate transfer medium 6 (as the intermediate transfer medium 6 rotates in the direction of the illustrated holes, it is carried to a position facing the ink sheet 3 and the pressure roller 7 used during recording. is joined to the ink sheet 3, and the pressure roller 7 is connected to the above-mentioned pressure roller 10.
The ink sheet 3 is pressed with a pressure equivalent to that of the ink sheet 3. At this time,
It adheres to the residual ink 14 in the same way as during the transfer described above. This pressure 6-1,t, as mentioned above, is greater than the pressure exerted by the thermal recording head, and the pressure exerted by the thermal recording head 1 is greater than the adhesive force that is sufficiently large, that is, the adhesive force between the residual ink 14 and the intermediate transfer medium 6. Although a large adhesive force is not generated, the pressure exerted by the pressure roller 7 becomes a sufficiently large adhesive force. In this case, since the joined object is the ink sheet 3, it does not have unevenness like the recording paper 12 and has a sufficient area for the recording area, so all the remaining ink 14 is absorbed by the ink sheet. Contact with 3. This blown residual ink 14 adheres all over the ink sheet 3. As described above, the cleaning operation of the intermediate transfer medium 6 is performed. This cleaning operation (above) may be performed every time recording/transferring one sheet of recording paper, or may be performed only when necessary by making the pressure roller 7 separable. In the recording apparatus configured as described above, Since the intermediate transfer medium 6 is made of silicone rubber, which has a weak adhesive force with the heat-melting ink compared to the recording paper and the base material of the ink sheet, it is difficult to transfer the ink image to the recording paper and clean the intermediate transfer medium. Although silicone rubber is used as the material of the intermediate transfer medium in the above embodiment, it is preferable that the material of the intermediate transfer medium has a solubility factor (SP) value as small as possible. Preferably, if the material has a value of 7 or less, the adhesive force between the ink and the intermediate transfer medium will be sufficiently small, and cleaning can be performed well.As described above, according to the present invention,
When cleaning the intermediate transfer medium, the ink sheet is pressed against the intermediate transfer medium with the same pressure as when transferring to recording paper, and the residual ink is adhered to the ink sheet with no uneven surface. Therefore, the intermediate transfer medium can be cleaned well. Further, since residual ink on the intermediate transfer medium can be removed from the ink sheet used for recording, a special leaning device is not required, and the structure of the device can be simplified and the device can be made inexpensive. Furthermore, since the residual ink that has been cleaned is disposed of together with the ink sheet after use, maintenance-free operation can be realized.

In addition, since the intermediate transfer medium is made of a material such as silicone rubber that has weak adhesion to hot-melt ink, cleaning of the intermediate transfer medium can be made more reliable. Next, a recording apparatus according to a second embodiment of the present invention will be described.

In FIG. 2, reference numeral 5 denotes a hollow intermediate transfer drum, and a heater 9 made of a halogen lamp or the like is provided therein to generate heat when energized and heat the intermediate transfer drum 5.
The surface of the intermediate transfer medium 6 is kept at a predetermined temperature. 1
9 is a temperature detection element such as a thermistor, which is connected to the intermediate transfer medium 6.
Detects the surface temperature of The [k] with the same reference numeral 4-1 as in Fig. 1 is the one with the same tank bottom as in Fig. 1. Next, the operation of the recording apparatus of this embodiment will be explained.

The temperature detection element 19 detects the surface temperature of the intermediate transfer medium 6, and a temperature control means (not shown) controls the output to the heater 9 according to the detected temperature, thereby heating and keeping the surface temperature of the intermediate transfer medium 6 at a predetermined temperature. . The appropriate temperature for the surface of the intermediate transfer medium 6 varies depending on the characteristics of the ink used, the material of the intermediate transfer medium 6, recording conditions, etc., but in this embodiment, it is maintained at 70°C. At this temperature, the viscosity of the hot-melt ink 4 is lower than that at room temperature, and it has sufficient adhesive strength even with light pressure contact. The adhesion between the ink and the intermediate transfer medium is stronger than the adhesion between the ink and the intermediate transfer medium. The adhesive strength of this ink varies depending on the object to be adhered, but in general, the adhesive strength to recording materials such as paper or PET film is very large and is almost the same as the adhesive strength to the ink itself.

Next, the operation of the recording apparatus of this embodiment will be explained. The image recording operation on the intermediate transfer medium 6 and the image transfer operation on the recording paper 12 are the same as in the first embodiment. however
The pressing force of the pressing roller 10 may be smaller than that of the first embodiment. The cleaning operation for cleaning the intermediate transfer medium 6 will be described below with reference to FIG. As the intermediate transfer medium 6 rotates in the hole direction 9-20- shown in the figure, the ink 14 remaining on the intermediate transfer medium 6 is carried to a position facing the ink sheet 3 and the thermal recording head 1 used during recording.
The intermediate transfer medium 6 is joined to the ink sheet 3 and
The thermal recording head (2) presses the ink sheet 3. In other words, the board enters the recording operation. At this time, the adhesive force between the hot melt ink 4 and the intermediate transfer medium 6 is weaker than the adhesive force between the hot melt inks 4, and the mechanical strength of the hot melt ink 4 is lower than that between the hot melt ink 4 and the ink sheet. Since the adhesion force is weaker than the adhesive force with the base material of No. 3, the residual ink +4LL adhering to the ink sheet 3 The non-image portion of the next image is peeled off from the intermediate transfer medium 6 together with the ink sheet 3 as it is. In the image area, the heat-melting ink 4 is further heated by the heat generated by the heating element 2.

At this temperature, the viscosity of the hot-melt ink 4 is further reduced L. Mechanical strength<, adhesive force between the hot-melt ink 4 and intermediate transfer medium 6, adhesion between the hot-melt inks 4 21. The adhesive force between the heat-melting ink 4 and the base material of the ink sheet 3 is weaker than that of the base material of the ink sheet 3, so by peeling it off immediately, the heat-melting ink 4 is divided in the thickness direction and is deposited on the intermediate transfer medium 6 together with the residual ink 14 attached. to form an image. In the image area, the residual ink 14 remains as an image on the intermediate transfer medium 6.
Image quality is not affected. In addition, in the cleaning operation of this embodiment, the heating element 2 corresponding to the non-image area of the next image is
generates heat, melts or softens the heat-melting ink 4, and strengthens the adhesive force with the residual ink 14, but the intermediate transfer medium 6
By heating the tank bottom to such an extent that no transfer occurs, the pressing force of the thermal recording head (2) can be set even lower.

As described above, according to the present invention, by heating and keeping the intermediate transfer medium at a predetermined temperature, residual ink can be attached to the ink sheet with a pressure comparable to the pressing force of the thermal recording head, and the intermediate transfer The cleaning of the intermediate transfer medium can be continuously performed simultaneously with image formation on the intermediate transfer medium without using any special member for cleaning the medium. Accordingly, it is possible to provide a recording apparatus that can efficiently clean an intermediate transfer medium with a simple and inexpensive configuration. Furthermore, by heating the intermediate transfer medium to a predetermined temperature, the recording energy in the thermal recording head can be significantly reduced, and the pressing force of the transfer roller can also be significantly reduced. It goes without saying that the transferability, fixability, etc. of a resistive ink image vary depending on the characteristics of the ink used, so it goes without saying that the insulating temperature of the intermediate transfer medium 6 should be set to an appropriate value depending on the ink used. However, considering practicality, it is desirable that the temperature be within the range of 50°C to 120°C. Next, a recording apparatus according to a third embodiment of the present invention will be described. FIG. 5 (upper) is a diagram showing a schematic configuration of a thermal recording head pressing mechanism of a recording apparatus according to a third embodiment of the present invention. In FIG.
A head holding plate 71 holds the thermal recording head 1.

Reference numerals 72 and 73 are links, and the head suppressing spring 74 or the thermal recording head 1 is hung between the rotating lever 75 and the link 73.
is configured to be pressed against the intermediate transfer medium 6 via the ink sheet 3. A cam 76 changes the pressing force of the thermal recording head 1. When the cam 76 (companion) is in the state shown by the solid line in FIG.
In the state shown by the broken line in FIG. 5, the rotating lever 75 is rotated to the position shown by the broken line +i\ The thermal recording head 1 is configured to be pressed with a high pressure (hereinafter referred to as P2). has been done. The intermediate transfer medium 6 is heated and kept at a predetermined temperature by the heater 9, and as described in the second embodiment, the ink image 13 formed on the intermediate transfer medium 6 becomes adhesive.

This adhesive force varies depending on the mutual contact pressure between the ink and the object to be adhered, and the higher the contact pressure, the higher the adhesive force.If the contact pressure is lowered to a certain level or less, the ink image 13 that has already adhered This value is lower than the adhesive force of the surface of the intermediate transfer medium 6, and a condition can be created in which the ink image 13 is not transferred to the ink sheet side even if the ink sheet 3 is superimposed on the ink image 3.

The pressing force Lt, P+ of the thermal recording head 1 is set so that the pressure 9P2 at which the ink image 13 is not transferred to the ink sheet side is the pressure at which the ink image 13 is entirely transferred to the ink sheet side. FIG. 6 is a diagram showing a schematic structure of an ink sheet 31 used in a recording apparatus according to a third alternative embodiment of the present invention. In FIG. 6, 15 is a black heat-melt ink coating, 16 is a yellow heat-fusible ink coating, and 17 is a magenta heat-fusible ink coating. 18 is a cyan heat-fusible ink coating. The length of the ink application portion is set approximately equal to the circumferential length of the intermediate transfer drum 5. Furthermore, the color ink is sequentially overwritten on the intermediate transfer medium 6 and then transferred to the recording paper 2, and the circumference of the intermediate transfer medium 6 is the same as the recording paper 2.
The length is set to approximately the same as the length of . The rest of the configuration is the same as that in FIG. 2. Next, the operation of the recording apparatus of this embodiment will be explained. The recording apparatus in this embodiment records a color image using an ink sheet 31 having the configuration shown in FIG. First, in a recording operation, images are overwritten on the intermediate transfer medium 6 in the order of black, yellow, magenta, and cyan. At this time, when the cam 76 is in the state shown by the broken line in FIG. 5 and the thermal recording head 1 is pressed with a pressure P2 to record the first color black, the recording is performed on the intermediate transfer medium 6 similarly to the second embodiment. Can be done. However, for the second and subsequent colors, if an attempt is made to overwrite the previous image in this state, the ink image 13 on the intermediate transfer medium 6 will adhere to the ink sheet 3, as explained in the second embodiment. It will be peeled off (cleaned). Therefore, in this embodiment, the recording operation for the second and subsequent colors is performed by placing the cam 76 in the state shown by the solid line in FIG. 5 and pressing the thermal recording head 1 with a pressure P1. At a predetermined temperature and pressure P1 of the intermediate transfer medium 6, the adhesive force between the heat-melting inks 4 is weaker than the adhesive force between the heat-melting ink 4 and the intermediate transfer medium 6, and the mechanical strength of the heat-melting ink 4 The strength is weaker than the adhesive force between the hot-melt ink 4 and the base material of the ink sheet 3. Four color images of black yellow and magenta cyan are sequentially formed on the Zumi intermediate transfer medium 6 as the intermediate transfer drum 5 rotates. The image 6 is transferred to the recording paper 12 in the same manner as in the second embodiment. Next, the cleaning operation of the intermediate transfer medium 6 in this embodiment will be explained using FIG. 2. After performing the transfer operation in this manner, the ink 14 remaining on the intermediate transfer medium 6 is rotated in the direction A in the figure and moved relative to the ink sheet 3 and thermal recording head 1 used during recording. At this time, in order to start the black recording operation for the next image, the thermal recording head 1 is rotated so as to be in the state shown by the broken line, and the thermal recording head 1 is pressed by a pressure P2. As in the second embodiment, the residual ink 14 adheres to the black heat-melting ink application portion 15, and the cleaning operation of the intermediate transfer medium 6 is performed.As described below, according to the present invention, thermal recording The pressing force of the head is changed so that when recording the first color, the adhesive force of the ink image increases and the ink image adheres to the ink sheet, and when recording the second and subsequent colors, the pressure is changed so that it does not adhere to the ink sheet. Therefore, in addition to the effects similar to those of the second embodiment, it is possible to provide a recording apparatus that can overwrite an intermediate transfer medium when recording a color image and can record an image without color misregistration. It is possible.Also, the first
By recording black on a tangent basis, even if the black image area and the residual ink overlap, the hiding power of black is high, so even if the residual ink is transferred to the recording paper together with the black ink, it will not be noticeable. can.

In the above embodiment, the ink sheet 1-3 is composed of heat-melting ink coating parts of black, yellow, mazen, and cyan, as shown in FIG.
The type, number, and order of colors after the color are not limited to these. Also, the first color may be any other color as long as it has a high concealment rate and the residual ink is not noticeable! - An ink with low hiding power may be used as long as the residual ink is small enough not to affect the next image. Further, the thermal recording head pressing mechanism is limited to one having the configuration shown in FIG. 5.

Other configurations may be used as long as the pressing force can be switched between the first color and the second and subsequent colors. Also, ink sheet 3
1. Apply four colors of ink sequentially and separate them. % - Force support for performing color recording by rotating the intermediate transfer drum 5 multiple times with a thermal recording head L A plurality of colored ink sheets each coated with a single color are used, and a thermal recording head is assigned to each ink sheet of each color. It is also possible to adopt a configuration in which multiple colors are recorded at the same time by disposing them around the intermediate transfer drum 5. In this case (above), there is no need to switch the pressing force of the thermal recording head, and the pressing force of the thermal recording head corresponding to the first color ink sheet is P2.2.
It is sufficient to set the pressing force of the thermal recording head corresponding to the ink sheet after the color to be Pl. Further, the melting point of the heat-melting ink is preferably 50 to 160°C, and for ink using a binder with an unclear melting point, an ink with a softening point of about 40 to 180°C by the ring and ball method is used. uses a mixture of wax and thermoplastic resin as the main binder, with a melting point of 68'C (melting peak temperature by DSC) and a melt viscosity of 100,000 P at the melting point. Further, in this embodiment, the above-mentioned ink was used, the temperature of the intermediate transfer medium 6 was set to 70°C, and the contact pressure with the intermediate transfer medium 6 when the pressing force of the thermal recording head 1 was P2 was 10 kg/ am” and the maximum value at P2 is 3 kg/c+n2, thereby cleaning the intermediate transfer medium 6 and cleaning the ink image on the intermediate transfer medium 6 by switching the pressing force of the thermal recording head (■). In addition, when the contact pressure between the thermal recording head 1 and the intermediate transfer medium 6 in the recording section exceeds 5 kg/cm2, the ink image 13
begins to partially adhere to the ink sheet 3. For this reason,
In order to stably perform the cleaning of the intermediate transfer medium 6 and the overlapping recording of color ink images, it is necessary to set the contact pressure between the two at a ratio of 2:1 or more.

Furthermore, at the same temperature and pressure, the adhesive force between the first color ink is greater than the adhesive force between the ink and the intermediate transfer medium, and the adhesive force between the inks of the second and subsequent colors is greater than the adhesive force between the ink and the intermediate transfer medium. If a material is selected to have a property that the adhesive force is smaller than that of the adhesive, color recording can be performed with exactly the same configuration as in the second embodiment without changing the pressing force of the head. In this case, a thin layer of 4 material, which has low adhesion to the ink of the first color, is provided on the surface of the ink of the second and subsequent colors, so that the ink of the first color is attached to the ink of the second color. Or, as described below, a release layer is provided between the hot-melt ink and the ink sheet base material, and the release layer separates the ink from profiteering, leaving the release layer on the ink image. By configuring the ink to be recorded and overwritten so that it does not adhere to the ink, overwriting can be performed more reliably on the intermediate transfer medium. Next, another embodiment of the recording operation according to the present invention will be described with reference to the drawings. FIG. 4 is a partially enlarged view showing a state in which the heat-melting ink 4 is transferred to the intermediate transfer medium 6 in another embodiment of the recording operation of the present invention. In FIG. 4, reference numeral 20 denotes a release layer provided between the base material of the ink sheet 3 and the heat-melting ink 4. Release layer 20 (uses a material whose viscosity rapidly decreases when heated by the J recording head ■, exhibiting a release effect. With this structure, the adhesive force between the ink and the silicone rubber is weak) Even if it is a so-called heat-softening ink, the ink will be easily transferred to the transfer drum 1 side.The film thickness of the ink image 14 will also be uniform and a stable density will be obtained.Other configurations is the same as that in Fig. 3. When the viscosity of the release layer 20 is low, the mechanical strength of the release layer 20 becomes weaker than the adhesive force between the intermediate transfer medium 6 and the hot-melt ink 4, and peeling occurs. Each material is selected so that the adhesive force between the layer 20 and the base material of the ink sheet 3 is weaker than the adhesive force between the hot-melt ink 4 and the release layer 20.When recording on the intermediate transfer medium 6, The release layer 20 is heated by the heat generated by the heating element 2 and becomes a low viscosity state, so the mechanical strength of the release layer 20 becomes weak.If the intermediate transfer medium 6 and the ink sheet 3 are separated in this state, the release layer 20 becomes thicker. As shown in FIG. 4, the ink sheet 3 is divided into intermediate transfer medium 6 and ink sheet 3 and is transferred separately.As described above, according to the present invention, the release layer is divided in the thickness direction. By adopting a configuration in which heat-melting ink is transferred to an intermediate transfer medium, it is possible to use resin-based ink with high melt viscosity or so-called heat-softening ink.Also, the film thickness of the ink image can be reduced by 1. Since the density remains constant, an image with no density change can be obtained.Also, since the ink image on the intermediate transfer medium leaves a peeling layer on its surface, overwriting can be performed well during color recording. Embodiments 1.2 and 3 Furthermore, in other embodiments of the recording operation according to the present invention, the intermediate transfer medium 6 is in the form of a drum, but the intermediate transfer medium 6 is in the form of an endless belt wound between rollers. Further, the thermal recording head 1 is not limited to this, and it is also possible to use an electric recording method equipped with a resistive sheet and a multi-stylus head, heating with laser light, etc. When recording, the diameter of the transfer drum 1 is set to about 30 to 50 mm, and the transfer is performed immediately after recording, thereby reducing the size of the apparatus and improving thermal efficiency.

Effects of the Invention As described above, according to the present invention, in a recording apparatus that forms an ink image on an intermediate transfer medium and then retransfers this ink image to an image receiving paper, the ink sheet used for recording is cleaned by cleaning the intermediate transfer medium. Therefore, it is possible to provide a recording device that is simple in construction, inexpensive, and maintenance-free without the need for a special leaning device. Further, according to the present invention, since the intermediate transfer medium is heated to a predetermined temperature, cleaning can be performed with pressure comparable to that of a thermal recording head, and therefore, there is no need to use any special member for cleaning. It is possible to provide a recording device that can perform recording and cleaning on an intermediate transfer medium at the same time, has a simple configuration, and can perform cleaning efficiently. Furthermore, it is possible to provide a compact, inexpensive, and maintenance-free recording device by reducing recording energy and transfer pressure. Also, according to the present invention,
When performing color recording by overwriting on intermediate transfer media
By switching the pressing force of the thermal recording head when recording the first color and when recording the second and subsequent colors, it is possible to achieve both overwriting on the intermediate transfer medium and cleaning with the ink sheet, thereby reducing color misregistration. It is possible to make a big difference by providing a recording device that can record color images without color. Further, according to the present invention, when performing color recording by overwriting on an intermediate transfer medium, by configuring the adhesive force between the first color inks to be higher than the adhesive force between the second and subsequent color inks, It is possible to provide a recording device capable of recording color images with the same configuration as that for monochrome recording. Further, according to the present invention, by using black as the first color, residual ink remains on the intermediate transfer medium together with the black image.The high hiding rate of black ink makes the residual ink less noticeable - without degrading the image quality. A recording device capable of color overwriting recording can be provided.

[Brief explanation of drawings]

FIG. 1 is a schematic configuration showing the operation of the recording apparatus according to the first embodiment of the present invention; FIG. 2 is a schematic configuration showing the operation of the second practical example of the present invention; , 2 and 3. Figure 4 is a partial enlargement showing another recording operation of the present invention. Figure 5 is a partial enlargement of the recording unit of the third embodiment of the present invention. Schematic configuration showing a head pressing mechanism @ Fig. 6 is a configuration showing an ink sheet used in the same device @ Fig. 7 is a schematic configuration diagram showing an example of a conventional recording device.

Claims (14)

[Claims] (1) An intermediate transfer medium, an ink sheet provided with a heat-melting or heat-softening ink layer, and a heat pattern corresponding to an image being generated to melt or soften the ink layer of the ink sheet. A recording device for forming an ink image on an intermediate transfer medium, and a transfer device for transferring the ink image to an image receiving paper, and after the transfer by the transfer device,
A recording apparatus characterized in that the recording apparatus is configured to remove ink remaining on the intermediate transfer medium onto the ink sheet to clean the intermediate transfer medium. (2) The recording apparatus according to claim 1, wherein at least the image forming surface of the intermediate transfer medium is made of silicone rubber. (3) The recording apparatus according to claim 1, further comprising a heat-retaining means for heating and keeping the intermediate transfer medium at a predetermined temperature at which the ink becomes adhesive to the image-receiving paper. (4) The recording apparatus according to claim 1, wherein the recording apparatus is configured to cause residual ink to adhere to an unused area of the ink sheet. (5) A sheet pressure contact means for pressing the ink sheet against the intermediate transfer medium via the ink sheet, and by pressing the ink sheet against the intermediate transfer medium, residual ink is attached to the ink sheet, and the intermediate transfer medium 2. The recording apparatus according to claim 1, wherein the recording apparatus is configured to perform cleaning. (6) The recording means is a thermal head, and the thermal head also serves as a sheet pressure contact means, and the residual ink on the intermediate transfer medium is attached to the ink sheet by the pressing force of the thermal head, and the ink is transferred to the intermediate transfer medium. 6. The recording apparatus according to claim 5, wherein the recording apparatus is configured to clean the intermediate transfer medium at the same time as forming the ink image. (7) By preheating the thermal head to a level that does not perform recording, adhesive force is generated in the ink layer of the ink sheet, residual ink on the intermediate transfer medium is adhered to the ink sheet, and the intermediate transfer medium is cleaned. 7. The recording apparatus according to claim 6, wherein the recording apparatus is configured to perform the following. (8) The sheet pressing means is characterized by comprising a pressing member that presses the ink sheet against the intermediate transfer medium with a predetermined pressing force, and a pressing member heating means that heats the pressing member to a predetermined temperature. The recording device according to claim 5. (9) An ink sheet in which ink layers of multiple colors are provided in a plane-sequential manner or a plurality of ink sheets each provided with ink layers of different colors is provided, and ink images of multiple colors are overwritten on an intermediate transfer medium. After forming the color ink image,
2. The image forming apparatus according to claim 1, wherein the image is transferred to an image receiving paper, and the intermediate transfer medium is cleaned when a first color image is formed on the intermediate transfer medium in the next image formation. recording device. (10) The recording apparatus according to claim 9, wherein the intermediate transfer medium is made of silicone rubber. (11) The recording apparatus according to claim 9, wherein the first color ink image formed on the intermediate transfer medium is black. (12) A sheet pressure contact means for pressing the ink sheet against the intermediate transfer medium via an ink sheet, and the ink sheet is made of a material such that the adhesiveness of black ink is greater than the adhesiveness of inks of other colors. Ink is applied thereto, and the pressure contact force of the sheet pressure contact means that presses the ink sheet against the intermediate transfer medium is applied to the black ink, which produces an adhesive force against the residual ink, and the inks of other colors, which produce an adhesive force. 12. The recording device according to claim 11, wherein the recording device is set to a value such that the recording device does not have the same value. (13) The recording means is a thermal head, and the thermal head also serves as sheet pressure contact means for pressing the ink sheet onto the intermediate transfer medium via the ink sheet, and when forming the first color ink image, the thermal head The apparatus is characterized in that the remaining ink on the intermediate transfer medium is adhered to the ink sheet by the pressing force of the head, and the intermediate transfer medium is cleaned at the same time as the ink image is formed on the intermediate transfer medium. 10. The recording device according to claim 9. (14) When forming the first color ink image, the thermal head is preheated to the extent that no recording is performed, thereby creating adhesive force in the ink layer on the ink sheet, and removing the residual ink on the intermediate transfer medium onto the ink sheet. 10. The recording apparatus according to claim 9, wherein the recording apparatus is configured to clean the intermediate transfer medium by attaching the intermediate transfer medium to the intermediate transfer medium.