JPH03184894A - Hot-pressing transfer image receiving paper - Google Patents

Abstract

PURPOSE:To obtain hot-pressing transfer image receiving paper not generating various troubles from the aspect of the feed and reception of the image receiving paper and enhanced in reliability by providing a back coat layer composed of a conductive material to the rear on the side opposite to the coating surface of the dyeing layer of base paper. CONSTITUTION:Image receiving paper is obtained by forming a back coat layer 13 composed of a conductive material to the rear on the side opposite to the coating surface of the dyeing layer 16 of base paper 12. The charge 15 of the static electricity generated in the image receiving paper is perfectly destaticized by the destaticizing member 14 coming into contact with a part of the image receiving part.

Description

[Detailed Description of the Invention] Industrial Application Field The present invention is applicable to multiple colors (yellow, magenta, cyan, etc.).
The present invention relates to an image receiving paper for a thermopressure transfer recording device in which a full-color image is transferred and recorded by sequentially heating an ink sheet coated with a sublimable dye or the like using a thermal head.

Conventional technology While the image-receiving paper is conveyed and stored inside the main body of a thermopressure transfer recording device, the image-receiving paper is subjected to friction, heating, peeling, and frictional electrification by mechanical parts such as rubber rollers, thermal heads, and ink sheets.・Electrification occurs due to peel-off charging phenomenon. This causes various troubles when transporting and storing the image-receiving paper, and for this reason, conventionally, an antistatic agent has been applied to the back side of the recording transfer surface.

FIG. 2 is a perspective view of a conventional image receiving paper for thermopressure transfer. Second
In the figure, 21 is a dyeing layer on which sublimable dyes of multiple colors (yellow, magenta, cyan, etc.) are heated and transferred; 22 is a base paper made of synthetic paper coated with the dyeing layer 21;
23 is a back coat layer in which an antistatic agent is applied to the back surface of the base paper 22 opposite to the coated surface of the dyeing layer 21; 24 is a static eliminating member equipped with a grounded conductive brush; 25 is a schematic diagram It is an electrostatic charge.

The operation of the thus constructed image receiving paper for thermopressure transfer will be described below. The image receiving paper having the base paper 22 made of synthetic paper is subjected to friction, heating, and peeling by mechanical parts of the thermopressure transfer recording device such as a rubber roller, a thermal head, an ink sheet, etc. (not shown), and is frictionally charged and peeled off. The electrostatic charge 25 is charged during the charging interval, which causes various troubles in transporting and storing the image receiving paper. In order to remove the static electricity charge 25, a back coat layer 23 coated with an antistatic agent is usually provided on the image receiving paper, but this antistatic agent absorbs moisture in the air and makes this moisture conductive. The electricity 4ij25 generated on the receiving paper using the
The static electricity is easily removed through the mechanical parts, and in the same way, the static electricity is removed by bringing the surface of the receiving paper into contact with the conductive brush of the static eliminating member 24.

Problems to be Solved by the Invention However, in the above configuration, the antistatic agent in the back coat layer 23 of the image receiving paper absorbs moisture in the air and has conductivity, so it does not work in dry air. , hardly exhibits any conductive effect and cannot transfer charge. Therefore, the charge is only removed from the contact area with conductive mechanical parts and the contact area between the image receiving paper and the brush of the static eliminating member 24, and the charge remains in other areas, and the charge remaining on the image receiving paper is transferred to the air. The dust may be absorbed and transferred to the dyeing layer along with the dye, causing spots in the transferred image. There has been a problem in that the paper and paper are attracted to each other, causing paper jams in the image receiving paper.

The present invention solves the above-mentioned problem, and the image receiving paper made of synthetic paper is frictionally charged when it is subjected to friction, heating, and peeling by mechanical parts such as a rubber roller, a thermal head, and an ink sheet of a thermopressure transfer recording device.・Easy to eliminate static electricity caused by the peel-off charging phenomenon, and by removing static electricity with a simple static eliminating member, transport of image receiving paper,
To provide a highly reliable image receiving paper for thermopressure transfer that eliminates various storage troubles.

Means for Solving the Problems In order to solve the above problems, the image receiving paper for thermopressure transfer of the present invention has a dyed layer to which a sublimable dye etc. is transferred by heating with a thermal head, and a dyed layer coated with a dyed layer. The tank bottom is provided with a base paper made of synthetic paper and a back coat layer coated with a conductive material on the back surface of the base paper opposite to the surface coated with the dyeing layer.

Effect With the above-described configuration, when the image-receiving paper is subjected to friction, heating, or peeling by a rubber roller, thermal head, ink sheet, etc. in dry air, the image-receiving paper is frictionally charged and peeled off.
The static electricity generated by the peel-off charging phenomenon is removed from the conductive back coat layer applied to the base paper through conductive mechanical parts, etc., to the main body of the thermopressure transfer recording device, or in the same way, the static electricity is removed from the conductive back coat layer applied to the base paper. By contacting a simple static eliminating member to eliminate static electricity, it is possible to eliminate various troubles in transporting and storing the image receiving paper, and to realize a highly reliable image receiving paper for thermopressure transfer.

Example Below, regarding an image receiving paper for thermopressure transfer according to an example of the present invention,
This will be explained with reference to the drawings.

FIG. 1 is a perspective view of an image receiving paper for thermopressure transfer according to an embodiment of the present invention. In FIG. 1, 11 is a dyeing layer on which sublimable dyes of multiple colors (yellow, magenta, cyan, etc.) are heated and transferred, 12 is a base paper made of synthetic paper coated with the dyeing layer 11, and 13 14 is a back coat layer coated with a conductive material on the back surface of the base paper 12 opposite to the coated surface of the dyeing layer 11; 14 is a static eliminating member comprising a grounded conductive brush;
15 is a schematic representation of electrostatic charge.

The operation of the image-receiving paper for thermopressure transfer of this embodiment, which has been bottomed in this manner, will be described below. The image receiving paper made of synthetic paper is subjected to friction, heating, and peeling by the mechanical parts of the thermopressure transfer recording device, such as the rubber roller, thermal head, and ink sheet (not shown), and due to the frictional charging and peeling charging phenomenon at this time. This results in a static charge 15 being charged. In order to eliminate this static electricity charge 15, a back coat layer 13 made of a conductive material is applied to the image receiving paper, and the static electricity charge 15 generated on the image receiving paper can freely move within the back coat layer 13, so that it becomes conductive. The electric charges 15 are completely eliminated by the neutralizing member 14 that comes into contact with mechanical parts and a part of the image receiving paper. This prevents the image receiving paper from absorbing dust in the air and transferring the dust together with the dye to the dyeing layer 11, causing spot-like defects on the transferred image. There is no possibility that mechanical parts (not shown) will attract each other and the image receiving paper will cause a paper jam.

As described above, according to this embodiment, by applying a back coat layer made of a conductive material to the image receiving paper for thermopressure transfer, all static electricity generated on the image receiving paper can be removed even in dry air. This eliminates various troubles in transporting and storing the image receiving paper, and realizes a highly reliable image receiving paper for thermopressure transfer.

Effects of the Invention As described above, according to the present invention, since a back coat layer made of a conductive material is applied to the image receiving paper for thermopressure transfer, the image receiving paper is exposed to the thermal head in dry air.
When subjected to friction, heating, and peeling by an ink sheet, etc., static electricity generated on the receiving paper due to frictional charging and peeling charging phenomenon is transferred from the back coat layer, which is made of a base paper coated with a conductive material, to conductive mechanical parts. By removing static electricity from the main body of the thermopressure transfer recording device, or by contacting a simple static eliminating member to a part of the image receiving paper, various troubles may occur when transporting and storing the image receiving paper. Eliminate the
A highly reliable image receiving paper for thermopressure transfer can be realized.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view of an image-receiving paper for thermo-pressure transfer according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of a conventional image-receiving paper for thermo-pressure transfer. DESCRIPTION OF SYMBOLS 11... Dyeing layer, 12... Base paper, I3... Back coat layer, 14... Discharge member, 15... Charge.

Claims (1)

[Claims] 1. A dyeing layer onto which a sublimable dye or the like is transferred by being heated by a thermal head, and a base paper made of synthetic paper coated with the dyeing layer, the surface of the base paper having the dyeing layer applied thereto. An image-receiving paper for thermopressure transfer that has a back coat layer coated with a conductive material on the opposite side.