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Hydraulic transfer method provided with design surface purification mechanism, and hydraulic transfer device therefor

An appearance surface and hydraulic technology, applied in transfer printing, rotary printing machine, ink transfer from original manuscript, etc., can solve the problems of time-consuming and poor efficiency

Active Publication Date: 2013-08-21
TAICA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0014] However, these methods are mainly used for film recovery and residue recovery on the surface of the transfer liquid (water surface), and are not only large-scale in terms of structure, but also are intermittent processing methods that perform film recovery and residue recovery every transfer. , therefore, it also takes time, and the efficiency is poor, so it cannot be called an ideal method

Method used

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  • Hydraulic transfer method provided with design surface purification mechanism, and hydraulic transfer device therefor
  • Hydraulic transfer method provided with design surface purification mechanism, and hydraulic transfer device therefor
  • Hydraulic transfer method provided with design surface purification mechanism, and hydraulic transfer device therefor

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Experimental program
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Effect test

Embodiment 1

[0402] The present invention takes the above-mentioned embodiment as a basic technical idea, but the following changes can also be considered.

[0403] First of all, in the above-mentioned embodiment, the impurities in the transfer liquid L are efficiently recovered mainly by using the two-stage OF structure, and the cleaning of the liquid outlet area P2 is realized, but when the cleaning of the liquid outlet area P2 (transfer liquid L In the process of cleaning), it is not necessary to have a two-stage OF structure, and it may be as follows (this will be referred to as "other example 1").

[0404] That is, as an example Figure 24 ~ Figure 26As shown, this method (other embodiment 1) is provided with a new water supply port 107 below the overflow tank 92 used for forming the flow away from the appearance surface, and supplies new water upwards from here toward the liquid outlet area P2 (in other embodiments 1, the reference symbol "PU" is attached to the fresh water), and th...

Embodiment 2

[0417] In addition, in the above-mentioned basic embodiment, the mode in which the active agent is coated on the transfer film F and then supplied to the transfer tank 2 is mainly shown (refer to figure 1 ), but the activation of the transfer film F as described above can also be carried out in the state of being supplied to the transfer tank 2 and in contact with the liquid. In this case, there is a preferred activation form corresponding to this. Therefore, This will be described below (this will be referred to as "other example 2"). That is, in other Example 2, the active agent application device (apparatus assigned reference numeral "4" in the basic embodiment) is changed so that the transfer film F supplied to the surface of the transfer liquid L of the transfer tank In the activated form, in particular, the reference numeral "active agent application device 40" is attached to the device to distinguish it from the basic embodiment. In addition, by the way, here, the hyd...

Embodiment 2

[0482] Embodiment (other embodiment 2: Figure 28 )

[0483] On the other hand, in the present system in which the drain water after mold release cleaning is supplied to the transfer tank 20, the mold release cleaning device 90 implements hot water spray 902 using two storage tanks 904 and a circulation pump and a flow rate of 20 L / min. Rinse water spray 903, import 15L / min release water (refer to Figure 28 ). The PVA concentration of the mold release water was 600 ppm after 3 hours and 1200 ppm after 8 hours.

[0484] The initial PVA concentration of the transfer tank 20 was adjusted to 500ppm, and the above-mentioned release water was introduced and the transfer process was continued. As a result, the PVA concentration of the transfer water after 8 hours was 1350ppm, 1700ppm after 16 hours, and 800ppm after 80 hours. 2000ppm, and 2040ppm after 160 hours, the transfer film characteristics were stable, and no defect caused by the transfer film F was found.

[0485] In t...

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Abstract

To develop a novel hydraulic transfer method wherein even if the structure is comparatively simple, film scraps, foam, etc., on the transfer liquid surface are not allowed to move closer to a design surface of a transfer receiving body surfacing from the transfer liquid. The present invention relates to a hydraulic transfer method to form an appropriate transfer pattern on a surface of a transfer receiving body by pressing the transfer receiving body from the upper side of a transfer bath, and is characterized in that a flow to move away from a design surface of the transfer receiving body emerging from the liquid is formed by a design surface purification mechanism such as a overflow bath, etc., at an emerging area where the transfer receiving body is drawn out from the transfer liquid, so that foams on the transfer liquid surface and contaminants staying in the liquid can be moved away from the emerging transfer receiving body, and can be discharged to the outside of the transfer bath.

Description

technical field [0001] The present invention relates to a hydraulic transfer printing, which floats and supports a transfer film formed by pre-applying an appropriate transfer pattern (surface ink layer) with transfer ink on the liquid surface, and pushes the object to be transferred on the transfer film On the film, while submerging the transferred body into the transfer liquid, the transfer pattern on the film is transferred to the transferred body by using its hydraulic pressure, especially involving a novel hydraulic transfer method, This prevents film residues, foam, etc. on the surface of the transfer liquid from leaning against the appearance surface of the object to be transferred that floats up from the transfer liquid. Background technique [0002] Hydraulic transfer is known as follows: a transfer film obtained by applying a water-insoluble appropriate transfer pattern on a water-soluble film (carrier sheet) in advance is floated in a transfer tank (transfer liqui...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B44C1/175B41F16/00
CPCB44C1/175B41M3/12B41M5/025B41M5/03B41F16/0073B41F16/0006B41F16/00
Inventor 吉井扬一郎铃木荣次牛渡荣井柳克美
Owner TAICA
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