KR100963066B1 - A process of pitch control for embossing printing - Google Patents

Abstract

The present invention relates to a method of adjusting the height of embossing printing, and after the pre-printing process using oil-based ink, the rosin powder coating process, the debonding process of the non-tacky powder, the heating process for melting the rosin powder, and the cooling of the melted rosin. In the embossing printing is completed through the drying process for fixing, the powder supply hopper for each particle filled with different particle sizes of the rosin powder main body and each rosin powder in the coating process to prepare the specifications and letters of the printing paper Depending on the size of the embossed rosin powder particles suitable for the application of the desired height in the powder supply hopper to the main body of the apparatus can be adjusted by adjusting the height of the embossed lifting of the printed material passed by the conveyor belt, By embossing printing to meet the needs, it is possible to maximize the PR effect of printed matter. It is directed to a method.

Embossing printing, embossing printing, embossing telescoping

Description

A method of manufacturing embossed prints with adjustable thickness {A PROCESS OF PITCH CONTROL FOR EMBOSSING PRINTING}

The present invention is a method of using the rosin powder to emboss on the printing portion during the printing operation after the embossing in the processing process in order to obtain a different embossed printed material embossed in the printing process according to the thickness of the rosin powder by supplying different adhesive It relates to a method for producing an embossed print produced by.

The present invention is a method of spraying the general rosin particles in a method of applying a rosin to the printed portion during the embossing printing process using a rosin in the prior art or by implementing a transparent ink coating process separately, a lot of embossing manufacturing cost and printed matter The present invention relates to a method for adjusting the height of embossing in order to solve the problem of difficulty in controlling the thickness of the embossing according to the standard or type thereof.

In the embossing print forming process,
In order for the printed matter 10a to be applied while adjusting the printing embossing thickness while passing through the rosin powder apparatus main body 11,
Processing the rosin powder into particles of size 200 mesh to 1000 mesh,
Storing in several feed hoppers 11 classified by particle size,
Method of manufacturing a thickness-adjustable embossed printed material through the step of supplying the rosin powder applied to the embossing thickness for each use from the supply hopper to the rosin powder device main body (11).

The present invention is a fixed apparatus and process for controlling the embossing thickness of printed matters by applying to embossing manufacturing in detail, and controlling the embossing height for each application at the same time by applying the rosin powder of the particle size (mesh) selected in the rosin powder applying process and controlling the embossing height by application. However, it is easy to adjust the thickness according to the kind and brings the effect of reducing the manufacturing cost of embossing.

The present invention will be described in detail with reference to the accompanying drawings, preferred embodiments.

Figure 1 shows a schematic diagram of the embossing printing process using the rosin powder, Figure 2 shows a schematic diagram comparing the thickness of the embossed forming layer according to the difference in the particle size of the rosin powder of 200 mesh to 1000 mesh, 2A is the rosin powder particles Schematic diagram of embossing formation when the size is 500 mesh, and 2B shows a schematic diagram of the embossing formation process when the powder particles are 1000 mesh.

First, one embodiment of the embossing printing height adjustment printing system according to the present invention is the printed matter (10a) conveyed by the conveyor belt conveying device (15a) (15b) (15c) (15d) passes through the printing device (10) The process by which the rosin powder is applied to the printing area while passing through the rosin powder device main body 11 by the first conveyor belt 15a after the printing process by the oil-based ink material having the effect of delaying moisture evaporation due to the slow volatility. Through, the second conveyor belt (15b) is transferred to the blower for debonding the non-adhesive rosin powder 12 is subjected to the de-separation process while the de-separation and recovery process of the non-adhesive rosin powder, and again to the third The conveyor belt 15c is transferred to the heating device 13 for melting the rosin powder adhered to the printing site and melted to a predetermined thickness, and then to the drying device 14 by the fourth conveyor belt 15d. Transferred The it becomes an embossed print forming process operation is complete the rosin powder through the process of cooling and fixation.

In the embossing printing forming process of the present invention, in the rosin powder coating process, which is the second process, the rosin powder is separately installed by installing a plurality of storage hoppers 11 for classifying and storing the rosin powder in different places. The second conveyor belt 15b from the rosin powder hopper, which is stored in the hoppers 11a, 11b, 11c, 11d, and 11e, of which the thickness is adapted to the reference value required for each embossing thickness of the printed matter. By supplying the rosin powder of the corresponding thickness to the rosin powder device main body 11 is passed through the rosin powder coating operation for forming the embossing for each thickness is carried out, the above process will be described in detail with reference to specific examples same.

Example 1

In processing rosin powders of 200 mesh to 1000 mesh by particle size and storing them in each hopper, the rosin powder of 1000 mesh is processed and stored in the first hopper 11a, and the rosin of 800 mesh in the second hopper 11a. After processing the powder, 500 mesh rosin powder in the 3rd hopper 11c, 400 mesh rosin powder in the 4th hopper 11d, 200 rosin rosin powders in the 5th hopper 11e, and calendering And catalogues, business cards, brochures, wedding invitations, and the like were embossed with varying thicknesses of embossing to obtain the following results.

First result In order to emboss the catalog, 200 mesh rosin powders of the fifth hopper 11e were fed to obtain an embossed print product having a thickness of 1 m / m. Second result In order to emboss the calendar, 400 mesh rosin powder of the fourth hopper 11d was fed to obtain an embossed print product having a thickness of 0.8 m / m. Third result In order to emboss the wedding invitation, 500 mesh rosin powder of the third hopper 11c was supplied to obtain an embossed print product having a thickness of 0.5 m / m. Fourth result In order to emboss the business card, 800 mesh rosin powder of the second hopper 11b was supplied to obtain an embossed print product having a thickness of 0.3 m / m. 5th Result In order to emboss the guide sheets, a 1000-mesh rosin powder of the first hopper 11a was supplied to obtain an embossed print product having a thickness of 0.1 m / m.

In the above embodiment, the number of hoppers 11 is not limited to five, and the number of particles of the rosin powder particles may be referred to as fluid, and the size of the particles of the rosin powder is also not determined. This paper assumes that flexible adjustment is possible for each embossing application.

Referring to the representative two results of the above embodiment with FIG. 2, FIG. 2A is a schematic cross-sectional view of an embossing operation for producing a catalog using a size of 200 mesh of rosin powder. The first printing layer on the printing paper 20 21 is formed and conveyed to the rosin powder apparatus main body 11 at a conveying speed of 10 cm per second by the conveyor belt 15a, and also conveyed at the same speed by the second conveyor belt 15a. 200 mesh of rosin powder particles 22 are adhered to the first printing layer 21 which is printed with oil-based ink and hardly vaporizes water, and an unbonded rosin powder layer 23 is formed on the upper layer. While passing through the phosphorus blower 12, the unadhesive rosin powder 23 layer is subjected to dedusting, so that only 200 mesh of rosin powder particles 22 adhered remain, and are transferred to the heating device 13 at the above speed. Passing through 7 When the rosin powder particles 22 are melted by a heating wire that emits heat of 00 ° C. to 900 ° C., and the embossing forming layer 22a of about 1 m / m is formed, a device for cooling and drying is performed for the final drying step. The embossing printing of the catalog is completed by being transferred to the drying apparatus 14 which is integrally provided so that cooling and drying can be performed simultaneously.

2B is embossed printing under the same setting conditions as in the process of FIG. 2A to emboss the wedding invitation using the rosin powder supplied from the third hopper 11c storing the rosin powder 21c of 500 mesh. The printed matter on which the embossing formation layer 22b of about 0.5 m / m in thickness was formed was obtained.

As shown in FIG. 2, the size of the particles in advance for processing the rosin powder without the need for a separate thickness control device and a process for adjusting the embossing thickness required for various kinds of printed materials requires a separate size in advance for each use. It is possible to simply adjust the appropriate thickness according to the specification or type of the printed material in such a way that it is possible to process by storing in different storage hoppers 11 and store them by size and supply them to the powder apparatus main body 11 for each purpose. The present invention relates to a method of dramatically reducing the manufacturing cost due to the omission of a separate process.

1 is a process schematic diagram of an embossing printing process.

2 is a schematic diagram of embossing formation process of particles of different sizes.

<Explanation of symbols for the main parts of the drawings>

(10)-Printer (10a)-Print

(11)-the rosin powder body (11)-hopper

(11a)-Hopper 1 (11b)-Hopper 2

(11c)-Hopper 3 (11d)-Hopper 4

(11e)-Hopper 5 (12)-Blower

(13)-heater (14)-dryer

(15a)-First Conveyor Belt (15b)-Second Conveyor Belt

(15c)-3rd Conveyor Belt (15d)-4th Conveyor Belt

(20)-print paper (21)-first print layer

(22)-200 mesh rosin powder particles (22a)-1m / m embossing forming layer

(22b)-0.5m / m embossing forming layer (22c)-500 mesh rosin powder particles

Claims (2)

In the embossing print forming process, In order for the printed matter 10a to be applied while adjusting the printing embossing thickness while passing through the rosin powder apparatus main body 11, Processing the rosin powder into particles of a size of 200 mesh to 1000 mesh; Storing in several feed hoppers 11 classified by particle size; Supplying the rosin powder applied to the embossing thickness for each use from the supply hopper to the rosin powder apparatus main body 11; Characterized by passing through the manufacturing method of the embossed printable thickness control. delete

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