JPS6259092A - Printing method - Google Patents

Abstract

PURPOSE:To secure close contact of a recording sheet with a recording paper at the time of transfer and ensure adaptability to color printing, by giving electrostatic charges to the surface of an ink layer prior to a discharge recording step in which a conductive light-shielding layer is perforated by discharge recording. CONSTITUTION:A recording sheet 1 payed out from a payout roll 21 is statically electrified on the surface of an ink layer 4 thereof by a charger 30. The electrified sheet 1 is laid on a recording paper 25, and is perforated, followed by melting the ink layer 4 at a part corresponding to the perforation. In this case, since the paper 25 and the sheet 1 are maintained in sufficiently close contact with each other by the static electricity, the melted ink layer 4 can be transferred to the paper 25 with high fidelity. With this system of statically electrifying the surface of the ink layer and then laying the paper 25 and the sheet 1 on each other, transfer can be performed by rotating plural times a platen roller 32 with the paper 25 wound therearound in the case of multicolor printing, so that the multicolor printing free of color misregistration can be performed.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a printing method used in printers, facsimile machines, etc., for converting electrical signals related to images and characters into prints.

BACKGROUND OF THE INVENTION As one of the printing methods for immediately printing electrical signal information related to characters and images, a method that combines discharge breakdown recording and thermal copying has been proposed.

(Unexamined Japanese Patent Publication No. 54-17036) According to the drawings below,
An example of this conventional printing method will be explained.

FIG. 3 shows the printing process of the conventional printing method. In FIG. 3, l is a recording sheet, and a conductive light-blocking layer (for example, an aluminum vapor deposited layer) 3 on which discharge recording can be performed is formed on a transparent support 2, and a thermoplastic layer on the opposite surface that is melted by heat rays. It has a structure including an ink layer 4 (for example, wax containing carbon, etc.). 6 is a discharge recording electrode, and 7 is a return electrode which is grounded. Reference numeral 8 indicates a recording signal source, 9 indicates a light source for transfer, 10 indicates a transparent glass plate, 5 indicates recording paper as a printing medium, and 11 indicates recording sheet 1 and recording paper 5.
12 is a spring for pressing the pressure pad.

In the recording sheet 1, first, in a discharge recording step, a recording voltage is applied to the discharge recording electrode 6, and the conductive light shielding layer 3 is destroyed by discharge and holes are partially formed.

Next, this partially perforated recording sheet 1 is overlapped with recording paper 5 and sent to a transfer process. In the transcription process,
The pressure bonding pad 11 presses the recording paper 5 and the recording sheet 1 against the glass plate 0 so that they are in close contact with each other, and then the light source 9 irradiates light, and the light causes the conductive layer to form an ink layer corresponding to the holes in the light layer 3. 4 is melted and transferred onto recording paper 5.

Problems to be Solved by the Invention However, in this printing method, in order to faithfully melt the ink layer 4 to match the holes in the conductive light layer 3 destroyed by discharge and transfer it to the recording paper 5, it is necessary to 1 and the recording paper 5, and if the adhesion is insufficient, there is a problem that uneven transfer occurs and high quality printing cannot be performed.

Therefore, for crimping the glass plate 10 and the crimping pad 11,
There are problems in that a large load is required, the fruiting device tends to be large, and the feeding operation of the recording sheet 1 and the recording paper 5 tends to become unstable.

There is also a method of charging between the conductive light layer 3 and the back surface of the recording paper 5 after performing discharge breakdown recording, and bringing them into close contact with each other using electrostatic force. The perforated part becomes charged and the adhesion tends to be insufficient.

Furthermore, the method of charging the back side of the recording paper 5 has problems such as difficulty in color alignment in the case of color printing that requires multiple transfers to the same recording paper 5. was.

In view of the above-mentioned problems, an object of the present invention is to provide a printing method that ensures close contact between the recording sheet 1 and the recording paper 5 during transfer, simplifies the configuration of the device, and is suitable for color printing. That is.

Means for Solving the Problems In order to solve the above-mentioned problems, the printing method of the present invention includes a charging process in which a charge is applied to the surface of the ink layer prior to the discharge recording step of making holes in the conductive reflective layer by discharge recording. The method is characterized in that a step is provided, and the recording sheet and the printing medium are brought into close contact with each other during transfer by the electrical charge.

Effect of the present invention By using the method described above, it is not necessary to apply strong mechanical pressure during the transfer step, and the recording sheet and the printing medium are brought into close contact with each other by the electric charge applied to the surface of the ink layer, thereby achieving good transfer.

Further, since the charging step is provided before the discharge recording step, the conductive light shielding layer remains on the entire surface of the recording sheet in the charging step, so that the entire surface of the ink layer can be easily charged.

Furthermore, since the ink layer surface is charged first and then the printing material is stacked, it is possible to create a structure that is less prone to color misregistration when performing color printing that requires multiple recordings and transfers. It is possible.

EXAMPLE A printing method according to an example of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of the printing method of the present invention. In FIG. 1, l denotes a recording sheet, and a conductive light-blocking layer (for example, an aluminum vapor-deposited layer) 3 on which discharge recording can be performed is formed on a transparent support 2, and a thermoplastic layer on the opposite side that is melted by heat rays. It has a structure including an ink layer 4 (for example, wax containing carbon black, etc.).

32 is a platen roller that holds the recording paper 25;
It can be rotated in the direction of the arrow. Numeral 26 is a multi-needle discharge recording electrode, which is pressed against the platen 32 with the recording sheet 1 sandwiched therebetween so that all the electrode needles are in uniform contact with the conductive light layer 3 of the recording sheet 1. 28 is a recording signal source which can apply a predetermined recording signal between the return path electrode roller 27 and the discharge recording electrode 26. The return electrode roller 27 is grounded. Reference numeral 29 denotes a transfer light source (for example, a xenon lamp) for melting the ink layer 4 and transferring it onto the recording paper 25. 34 is recording paper 2 after transfer
This is a peeling roller for peeling off the recording sheet 1 and the recording sheet 1.

30 is a corona charger that generates corona discharge by applying a high voltage and applies electrostatic charge to the ink layer surface of the recording sheet 1. 21 is a supply roll for the recording sheet 1, and 22 is a take-up roll for the transferred recording sheet 1.

The process of the printing method of the present invention will be described below using an apparatus having such a configuration. First, the recording sheet 1 fed out from the supply roll 21 is charged with a surface potential of about 2 to 4 KV on the surface of the ink layer 4 by the charger 30. At this time, since the conductive light layer 3 has not yet been discharge recorded and remains on the entire surface of the recording sheet and is grounded via the return electrode roller 27, the corona charger 30
acts as a counter electrode. As a result, the surface of the ink layer 4 is easily and uniformly charged. The charged recording sheet 1 is overlapped with the recording paper 25 and sent along the platen 32 to the position of the discharge electrode 26. Here, a recording signal is applied to the recording needle from the recording signal source 28, and the conductive blocking layer 3 in contact with the recording electrode 26 is destroyed by discharge into a predetermined shape and a hole is made. Subsequently, the recording paper 25 and the recording sheet 1 are fed into a position facing the light source 29 in an overlapping state. Here, when the light source 29 is turned on, light passes through the holed portion of the conductive reflective layer 3 and melts the ink layer 4 in the portion corresponding to the hole. At this time, since the recording paper 25 and the recording sheet 1 are in close contact with each other due to static electricity, the melted ink layer 4 is faithfully transferred to the recording paper 25. After the transfer, the recording paper 25 and the recording sheet 1 are peeled off at the position of the peeling roller 34, and the recording sheet 1 is wound onto the take-up roll 22. Note that the recording paper 25 that has been peeled off is sent in synchronization with the platen 32 and is peeled off from the platen roller 32 at a predetermined position. However, when performing multi-color printing, the recording paper 25 is left wrapped around the platen roller 32 and discharged again. and send it to the transfer position. At this time, it goes without saying that the color of the ink in the ink layer 4 of the recording sheet l changes depending on the length of the recording paper 25.

In the embodiment, a corona charger was used to apply electrostatic charge to the ink layer 4, but it is also possible to use a high-voltage electrode plate or a roller that contacts the surface of the ink layer 4. Furthermore, by applying tension to the recording sheet l from both sides of the transfer position, and using the tension of the recording sheet l to press the recording paper 25 on the platen 32, adding not only electrostatic force but also mechanical adhesion force, more faithfulness can be achieved. A transferred image is obtained.

Effects of the Invention As described above, in the present invention, since the ink layer 4 surface of the recording sheet 1 is charged before performing discharge recording, the conductive light shielding layer 3 remains on the entire surface of the recording sheet 1 without being removed. By using this layer as a counter electrode, it is possible to easily and uniformly charge the surface of the ink layer 4 without the need for a special counter electrode or the like.

Also, the surface of the recording layer is charged, and then the recording paper 25 and
: Since this is a method in which the recording sheets 1 are superimposed, when printing in multiple colors, the recording paper 25 is wound around the platen roller 32 and rotated multiple times to perform transfer.
: It has features such as being able to be configured and easily realizing a multicolor printing device without color misregistration.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram of the printing method of the present invention, and FIG. 2 is an explanatory diagram of the conventional printing method. :
DESCRIPTION OF SYMBOLS 1...Recording sheet, 2...Support, 3...Electroconductive light layer, 4...Ink layer, 25...Recording paper, 2
6...Discharge recording electrode, 27...Return electrode, 29...
・Light source, 3o...corona charger. Name of agent: Patent attorney Toshio Nakao Haka 1 person 3θ-11 Corona Emperor 7ItJ drink/-11-ki coating L sheet 5-11-tori 4 kotoyo-san 6---Koudenki all electrodes

Claims (4)

[Claims] (1) Using a recording sheet with a conductive light-shielding layer that can be destroyed by electrical discharge on one side of a transparent support sheet and a thermoplastic ink layer on the other surface, the conductive light-shielding layer is selected by electrical discharge. The ink layer is melted corresponding to the holes by irradiating light from the conductive light-shielding layer side with the printing material stacked on the ink layer side. and a transfer step of transferring to the printing medium,
Printing characterized in that, prior to the discharge recording step, a charging step is provided to apply a charge to the surface of the ink layer, and the charged charge brings the recording sheet and the printing medium into close contact during the transfer step. Method. (2) The printing method according to claim 1, wherein the charged recording sheet and the printing medium are brought into close contact with each other prior to the discharge recording step. (3) The printing method according to claim 1 or 2, wherein the means for imparting electrical charge to the surface of the ink layer is a corona charger. (4) In the transfer step, mechanical pressure is applied between the recording sheet and the object to be transferred to improve the adhesion between the recording sheet and the object to be transferred. The printing method according to any one of paragraphs 3 to 3.