KR100454300B1 - platten structure of digital printing machine - Google Patents

Abstract

The present invention provides a squeeze due to a guide groove formed indented lower than a surface of an output plate extending from an output port of a digital printer, and an ink which can flow down to the lower surface of the output paper by forming a guide protrusion having a longitudinally protruding longitudinal direction therein. It relates to a platen structure of a digital printing machine that can remove or reduce marks and prevent sagging of the case.

The platen structure of the digital printing machine according to the present invention includes a head mounted on the ink cartridge and guided by the guide bar to output the paper to the output paper while reciprocating, an output port through which the output paper enters and an output plate formed at both upper end portions of the platen roller. A digital printer comprising a case, comprising: a guide groove formed at a predetermined depth in the longitudinal direction at a position directly below the head on the output plate, and having a stepped downward step at the edge; Characterized in that it comprises a plurality of guide projections provided with a predetermined thickness.

Description

Platen structure of digital printing machine

The present invention relates to a platen structure of a digital printing machine, and more particularly, a guide protrusion protruding in a rectangular shape in a rectangular shape in a guide groove formed in an output plate forming a lower surface of an output port through which output paper is discharged. Digital printing machine that can form a plurality of but lower the height of the guide groove and the area of the end as small as possible to reduce the squeeze marks caused by the ink flowing between the mesh of the output paper and to prevent or reduce the sag of the case Of the platen structure.

In general, a digital printer is a device that can maximize the precision and clarity of the drawing by outputting the data drawn from the computer to the output paper, in particular an inkjet digital printer is a device for outputting the data stored by the injection ink of the head to the output paper.

1 and 2, the digital printer 10 includes a power unit 14 for generating and transmitting required power, and a platen roller 16 that is rotated by receiving power by the power unit 14. ), A timing belt 15 interconnecting each other to transfer power of the power unit 14 to the platen roller 16, and a predetermined distance from the platen roller 16 at the top of the platen roller 16. And a pair of guide bars 18 and platen rollers 16 which are installed in parallel with each other, in close contact with the platen rollers 16, and also provided in the guide bars 18 and laterally from the top of the platen rollers 16. A head 24 for outputting the input data to the output sheet 42 while interlocking, an ink container (not shown) for providing ink to the head 24, and the like.

At this time, the output paper 42 is interposed between the platen roller 16 and the press-fit roller 22 and is installed in a form of wrapping a predetermined amount of the platen roller 16.

The operation of the conventional digital printer is such that the platen roller 16 installed in the case 12 is rotated by the driving of the power unit 14.

At this time, the output paper 42 outputs necessary data by the head 24 sliding in the transverse direction while being transported in the front and rear directions of the platen roller 16 according to the rotation amount and the direction of the platen roller 16. Done.

At this time, the output paper 42 is to be output through the output port 26, the output plate 28 is formed on the lower surface extending from the output port 26.

In addition, a plurality of grooves 29 having a predetermined size are formed in the output plate 28 in the longitudinal direction to dry the ink sprayed on the output paper 42.

In addition, a wheel 34 is formed at the lower end of the holder 32 to support and move the case 12.

However, since the output paper is output from the output plate and the ink reaches a large area before the ink dries, the ink flows downward through the output paper having a large mesh, so that the ink spreads on the lower surface of the output paper to generate a squeeze mark.

In addition, when the ink flows down, the grooves are blocked, so that the ink cannot be easily dried.

In addition, since the inside of the lower groove is an empty space, there is a problem that the output paper is crying when the case is bent downward.

The present invention is proposed to solve the above problems of the prior art, it is easy to dry the ink sprayed on the output paper and to prevent clogging of the grooves due to the ink flowing down to a large output paper (mesh) and to dry on the output plate It is possible to reduce the squeeze mark due to smearing by minimizing the area contacting the lower surface of the output paper, and to provide a platen structure of the digital printing machine to prevent or reduce the sag of the lower case.

The present invention for achieving the above object is provided with a head mounted on the ink cartridge and guided to the guide bar to output to the output paper while reciprocating movement, and the output port formed into the output port and the output plate formed on the upper end of both sides of the platen roller In a digital printer composed of a case, a guide groove having a predetermined depth in the longitudinal direction at a position directly below the head on the output plate and a stepped step in the bottom step step, and formed in a longitudinal direction within the guide groove, the predetermined distance and a predetermined thickness To provide a platen structure of a digital printing machine comprising a plurality of guide projections provided with.

1 is a perspective view schematically showing a conventional digital printer.

FIG. 2 is a cross-sectional view taken along the line II of FIG. 1. FIG.

3 is a perspective view showing the platen structure of the digital printing machine according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: digital printer 12: case

14: power unit 15: timing belt

16: platen roller 18: guide bar

22: press-fit roller 24: head

26: output port 28: output plate

29: groove 32: holder

34: wheel 42: output paper

100: guide groove 110: step

120: guide protrusion

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention will be described in more detail.

3 is a perspective view showing the platen structure of the digital printing machine according to the present invention.

Detailed description of the same or similar elements as in the prior art will be omitted.

As shown in FIG. 3, the platen structure of the digital printing machine according to the present invention includes a head 24 which mounts an ink cartridge and is guided to the guide bar 18 and outputs to the output paper 42 while reciprocating. And a case (12) having an output port (26) through which the output paper (42) enters and an output plate (28) formed at upper ends of both sides of the platen roller (16). Formed in the longitudinal direction at the bottom of the head 24 in the longitudinal direction and formed in the longitudinal direction in the guide groove 100 and the guide groove 100 in which the stepped step 110 is formed in a stepped manner downward on the edge. And characterized in that it comprises a plurality of guide protrusions 120 provided with a predetermined thickness.

Among the components of the digital printer, the same or similar components as those in the prior art have been given the same reference numerals, and description thereof will be replaced with the above.

Guide grooves 100 are recessed in the upper surface of the output plate 28 extending from the output port 26 of the case 12.

The guide groove 100 is recessed in the longitudinal direction, the edge of which is a stepped step 110 is formed lower than the surface of the output plate 28 has a downward stepped form.

In addition, the step 110 of the guide groove 100 may be formed only at the edge of the longitudinal direction, or may be formed over the entire edge of the guide groove 100.

The reason why the guide groove 100 is formed is that when the mesh of the output paper is large, the ink ejected from the head 24 flows down to the lower surface of the output paper 42 and is spread to the output plate 28. This is to eliminate the spread on the lower surface of the output paper 42.

In addition, the guide protrusion 120 is formed in the guide groove 100 by a predetermined interval in the longitudinal direction.

At this time, both ends of the guide protrusion 120 is coupled to the edge of the guide groove 100 to reduce or prevent the lower sag of the case 12.

When the output paper 42 passes through the guide protrusion 120, ink is ejected from the head 24.

At this time, the guide protrusion 120 is formed so as not to protrude out of the guide groove (100).

Thus, as the ink is ejected, the output paper 42 passes through the guide groove 100 so that the ink does not spread and is partially dried.

In this case, it is preferable to install a first heater (not shown) at a predetermined position of the output port 26 to apply heat to the output paper 42 so that the ink is easily pressed.

In addition, when the output paper 42 to which ink is injected is stretched on the guide groove 100, the guide protrusion 120 is formed to support the output paper 42.

On the other hand, the guide protrusion 120 makes the area of one end surface in contact with the output paper 42 smaller than the area of the other end surface.

That is, a portion of the guide protrusion 120 that contacts the output paper 42 is formed as small as possible to prevent squeeze marks, that is, bleeding, on the output paper 42 due to the flowing ink.

In addition, it is preferable to install a second heater (not shown) inside the output plate 28 to dry the ink adhered to the output paper 42.

3 is a sectional view taken along the line II-II of the digital printer 10 in an enlarged cross-sectional view showing the step 110 and the guide protrusion 120 in the guide groove 100.

Here, the edge of the guide groove 100 is formed to be higher than 't' by the step 110 and the height of the step 110 and the guide protrusion 120 is similar or the same.

On the other hand, in the output plate 28 according to the present invention, the guide groove 100 formed with the step 110 around the edge and the guide protrusions 120 formed in a plurality at regular intervals in the direction of the inside are all kinds of digital printers and plotters. Applicable to

As described above, according to the platen structure of the digital printing machine according to the present invention, there is an effect of drying the ink sprayed on the output paper discharged by forming a guide groove recessed in the output plate extending from the output port.

In addition, there is also an effect that the squeeze mark is not generated on the lower surface of the output paper by forming a guide protrusion in the long direction uniformly lower than the edge height of the guide groove inside the guide groove so that ink does not touch during drying.

In addition, since the guide protrusion is coupled to the edge of the guide groove in the shape of a piece, the guide groove and the lower part of the case can be prevented or reduced, and as a result, the output paper of the output paper can be prevented from crying. Since the shape of the projection is made of upper and lower beams formed with the width of the upper part wider than the width of the lower part, the durability of the guide protrusion also increases.

Claims (3)

In a digital printer comprising a case equipped with an ink cartridge, the head is guided to the guide bar and output to the output paper while reciprocating, an output port through which the output paper enters, and an output plate formed at upper ends of both sides of the platen roller, A guide groove formed at a predetermined depth in the longitudinal direction at a position directly below the head in the output plate, and having a stepped step at the edge; The platen structure of the digital printing machine, wherein the guide groove is formed in the shape of the upper and lower light, and comprises a plurality of guide protrusions arranged at a predetermined interval lower than the horizontal plane of the end of the guide groove. delete delete