KR101156651B1 - Heater for printed electronics - Google Patents

Abstract

PURPOSE: A drying device for printed electronic element is provided to enhance an electrical characteristic by uniformly drying an internal space and surface of printing electric element printed on a surface of a web. CONSTITUTION: A drying device for printed electronic element comprises a housing(10), a hot roll(20), and a hot wind supplying unit(40). The web is inserted into one side of the housing and discharged to the other side. The hot roll is installed inside the housing. The hot roll contacted to a non-printed surface of the web dries the non-printed surface while transferring the web to the other side of the housing. The hot wind supplying unit supplies hot air to a printed surface of the web, thereby drying the printed surface.

Description

Drying apparatus for printed electronic devices {Heater for printed electronics}

The present invention relates to a drying device for a printed electronic device that can quickly dry a printed electronic device printed on a film (Web) web in a combination of conduction and convection.

Recently, with the rapid development of information and communication fields, including electronic devices, electronic information and communication devices focusing on convenience of consumers are being manufactured one after another.

The recent electronic information and communication devices are evolving into miniaturized, portable, and highly functional, multi-functional integrated and multimedia devices incorporating broadcasting, computers, and communication, and accordingly, their appearance, size / weight, performance, convenience, price, etc. The conditions are much stricter than in the past. In other words, it must be equipped with ultra-compact, ultra-lightweight, ultra-thin, ultra-low power consumption so that the user can always carry it on the body. This is what is required.

In order to satisfy such various conditions, the miniaturization, ultra-thinness and the use of flexible substrates must be preceded. The specific solutions to these requirements can be solved. ) Is a spotlight on printed electronic technology.

Electronic devices or electronic components produced by such printed electronic technologies are referred to as "printed electronic devices", such as radio frequency identification tags (RFIDs), solar cells, batteries, transistors, displays, packaging, smart cards, and the like.

Typically, such printed electronic devices are patterned by various printing methods such as inkjet, screen, aerosol, flexo, gravure, etc. It is prepared by drying and curing a printed pattern with nano or micro sized particles by applying appropriate heat.

However, since the ink used in the manufacture of printed electronics is a special ink having excellent conductivity, semiconductivity, insulation, and the like, there is a problem in that a longer drying time is required than a general ink.

And if the drying time is long, the productivity is greatly reduced, as well as a long drying device proportional to the printing speed, so that the manufacturing cost is increased as the device is enlarged.

In addition, the conventional drying device for printed electronic devices adopts a method of blowing the hot air into the drying device to dry the printed electronic device printed on the web passing through the drying device through a convection method. Printed printed electronic devices are dried by the solvent component on the surface by hot air and heat is transferred to the inside, resulting in temperature difference between the surface of the printed electronic device and drying. Problems also arise.

In addition, since the temperature inside the drying apparatus is constant over the entire section, there is a problem in that it is impossible to dry the web at an optimal temperature according to the drying state. That is, if the internal temperature of the drying apparatus is set high to increase the drying speed, the printed electronic elements printed on the web entering the drying apparatus are abnormally dried due to a sudden temperature shock, causing quality problems.

The present invention has been made to solve the above problems, and an object thereof is to provide a drying device for a printed electronic device having a short length of the drying device through rapid drying.

In addition, an object of the present invention is to provide a drying device for a printed electronic device excellent in electrical properties by allowing the surface and the inside of the printed electronic device printed on the surface of the web to be uniformly dried.

In addition, an object of the present invention is to provide a drying device for a printed electronic device capable of producing a fast and high-quality product by controlling the drying temperature for each section.

In order to achieve the above object, the drying apparatus for a printed electronic device of the present invention is a housing in which a web in the form of a film printed on the surface of the printed electronic device enters and exits, and a web installed inside the housing to enter the housing. Hot-roll providing means for drying the printing surface of the web by providing hot air to the printing surface of the web entering the interior of the housing and the hot roll for drying the non-printing surface of the web while transferring the web to the other side in contact with the non-printing surface of the web. Characterized in that comprises a.

In addition, the hot roll is disposed up and down inside the housing to move the web while rotating in contact with the non-printing surface of the web, a turn bar for extending the conveying path of the web is disposed between the hot roll facing up and down, The hot air providing means may be configured to supply hot air horizontally toward each turn bar such that the printing surface of the web does not contact the surface of the turn bar.

In this case, the turn bar preferably further includes a through hole formed in a surface facing the web and a hot air blower for discharging hot air into the through hole.

On the other hand, the hot air providing means may be a hot air fan installed on the side wall of the housing up and down.

In addition, the hot air providing means may be a through-hole formed on the side wall of the housing up and down, and a hot air fan is provided on the outside of the housing for supplying hot air into the housing through the through-hole.

In addition, the temperature of the hot air and the temperature of each hot roll provided on the printing surface of the web through the hot air providing means is preferably to be independently controlled according to the drying section.

According to the present invention configured as described above, the printing surface of the web circulating inside the housing through the hot air providing means and the hot roll installed inside the drying apparatus is dried in a convection manner by hot air, while the non-printed surface is dried in a conductive manner by hot rolls. In addition, the drying time is significantly shortened as compared with the prior art, and the surface and the inside of the printed electronic device printed on the web are uniformly dried, thereby improving the electrical characteristics.

In addition, the present invention can set the temperature of the hot air and hot roll for each drying section to dry the web at the optimum temperature for each section, so that the drying speed is faster than the conventional, and can prevent the damage of the product due to sudden temperature shock. It works.

In addition, the present invention can provide a very long path to the web circulating inside the housing through the hot roll and turn bar disposed up and down has an effect that can significantly reduce the length of the drying apparatus.

1 is a cross-sectional view of the state of use of the drying apparatus for a printed electronic device according to the present invention
Figure 2 is a side cross-sectional view of the use state according to another embodiment of the turnbar constituting the present invention.
3 is a cross-sectional view taken along line III-III of FIG. 2;

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

DETAILED DESCRIPTION Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. Like reference numerals refer to like elements, and only different parts will be mainly described so as not to overlap for clarity.

As shown in FIG. 1, the drying apparatus for a printed electronic device of the present invention includes a housing 10 into which a web W having a printed electronic device printed on a surface thereof enters one side and is discharged to the other side, and the housing (10) a hot roll 20 installed inside the hot roll 20 for drying the non-printed surface W2 of the web W while being transported to the other side in contact with the non-printed surface W2 of the web W, and the housing 10. It is configured to provide hot air to the printing surface (W1) of the web (W) entering the inside of the hot air providing means for drying the printing surface (W1) of the web (W).

On one side and the other side of the housing 10, respectively, the web entry port 11 into which the web W of the state in which the printed electronic device is printed on the surface enters and the web entry port 11 enters into the housing 10. A web outlet 12 is formed through which the web W is discharged in a state where drying is completed via the inside of the housing 10.

The hot roll 20 is disposed up and down in the housing 10. The hot roll 20 is disposed up and down at a predetermined interval to contact the non-printing surface (W2) of the web (W), the web entered into the housing 10 through the web entry port 11 while rotating in a predetermined direction (W) is conveyed to the web outlet 12 at a constant speed.

On the other hand, the hot roll 20 may be installed in a row in the housing 10 to extend the transport path of the web (W). In this embodiment, for example, two rows are shown.

In addition, the hot rolls 20 are preferably configured such that each temperature is independently controlled. For example, the temperature on the web inlet 11 side is set to be low and the temperature gradually increases toward the web outlet 12 side. In this way, the drying of the printed electron irradiation printed on the surface of the web (W) entering through the web entry port 11 is gradually heated without being damaged due to a sudden rise in temperature.

The turn bar 30 is disposed between the hot rolls 20. The turn bars 30 are arranged one by one between the hot rolls 20 facing each other. Therefore, the hot roll 20 can always remain in contact with the non-printing surface W2 of the web W and the appropriate tension is given to the web W while the conveying path of the web W is extended. Stable transfer is guaranteed.

As described above, the present invention is configured to dry while circulating the inside of the housing 10 along the hot roll 20 and the turn bar 30 in which the web W is disposed up and down. Can be reduced.

The hot air providing means may be a hot air blower 40 installed vertically on the side wall of the housing 10. In this case, the hot air blower 40 is provided in plurality, and like the hot roll 20 described above, it is preferable that the temperature can be independently controlled to supply hot air of different temperatures for each drying section.

On the other hand, the hot air providing means is provided in the through hole (10a) up and down on the side wall of the housing 10, and is provided outside the housing 10 to supply the hot air into the housing 10 through the through hole (10a) It may be configured as a hot air fan 40. In this case, like the hot rolls 20, the hot air blowers 40 may be configured in plural so as to independently control the temperature so as to supply hot air having different temperatures for each drying section.

The hot air providing means according to the invention is preferably configured to supply hot air horizontally toward each turn bar (30). This is to lift the web W from the surface of the turn bar 30 so that the printing surface W1 of the undried web W does not contact the surface of the turn bar 30.

2 and 3, the turn bar 30 further includes a through hole 31 formed on a surface facing the web W and a hot air fan 45 for discharging hot air to the through hole 31. It may be provided to be able to actively float the web (W) from the surface of the turn bar (30).

The drying apparatus for a printed electronic device configured as described above is operated as follows.

First, as illustrated in FIG. 1, the hot air blower 40 is operated while preheating each hot roll 20 while the non-printing surface W2 of the web W is wound to be in contact with the surface of the hot roll 20. When the hot rolls 20 and the inside of the housing 10 reach the set temperatures, the hot rolls 20 are rotated. When the hot roll 20 rotates, the web W on which the printed electronic device is printed is started to enter the housing 10 through the web entry port 11.

Web (W) entered into the housing 10 is the inside of the printed electronic device printed on the printing surface (W1) of the web (W) through the conductive method while the non-printing surface (W2) is in contact with the hot roll 20 The surface of the printed electronic device printed on the printing surface W1 starts to be heated by the hot air blown out from the side wall of the housing 10 at the same time as the heating starts, and as a result, the surface and the inside of the printed electronic device are simultaneously heated. As a result, homogeneous drying is achieved.

At this time, the hot roll 20 and the hot air on the side of the web inlet 11 are suitable to a low temperature of about 60 ℃ so that the web (W) and the printed electronic device printed on the web (W) is not damaged by a sudden rise in temperature.

The web (W) via the hot roll 20 enters the upper turn bar 30. Since hot air is horizontally supplied to the turn bar 30, an air film having a predetermined thickness is formed on the outer circumferential surface of the turn bar 30. As a result, the web W is conveyed in a state of floating for a predetermined distance from the surface of the turn bar 30. The web W of the turn bar 30 is dried in a convection manner while the printing surface W1 is not in contact with the turn bar 30, and at the same time, the non-printing surface W2 is provided inside the housing 10. Drying is accomplished by convection by heat.

If a through hole 31 is formed on the surface of the turn bar 30 facing the web W, and a hot air fan 45 for discharging hot air to the through hole 31 is further provided, the web W is printed at a short distance. Since the hot air is provided on the surface W1, there is no fear that the printing surface W1 of the web W will come into contact with the turnbar 30, and the printing surface W1 of the web W from the side wall of the housing 10. Unlike the hot air provided by), since heat loss is hardly generated in the process of reaching the printing surface W1 of the web W, drying is performed very efficiently.

As such, the web W entered into the housing 10 alternately passes through the hot rolls 20 and the turnbars 30 while the printing surface W1 and the non-printing surface W2 are convection and conductive. Since it is dried at the same time, the surface and the inside of the web (W) are very uniformly dried, thereby obtaining a printed electronic device having excellent electrical characteristics.

Meanwhile, as the web W is transferred, the temperature of the hot rolls 20 and the hot air are gradually increased, thereby drying the web W quickly and efficiently, and the web W is inside the housing 10. If you take a moment to dry completely. Completely dried web (W) is discharged to the outside through the web outlet (12).

As described above, preferred embodiments of the present invention are described above with reference to the drawings, but the present invention is not limited to the above-described embodiments, and those skilled in the art may modify the present invention without departing from the spirit of the present invention. Possible, such modifications will fall within the scope of the invention.

10 ... Housing 10a, 31 ... through
20 ... hot roll 30 ... turnbar
40,45 ... French W ... Web
W1 ... print side W2 ... non-print side

Claims (6)

A housing in which a web in the form of a film printed on the surface of the printed electronic device enters one side and is discharged to the other side;
A hot roll installed in the housing to dry the non-printed surface of the web while being transported to the other side in contact with the non-printed surface of the web entering the housing; And
And hot air providing means for drying the printing surface of the web by providing hot air to the printing surface of the web entering the interior of the housing. The method of claim 1,
The hot roll is disposed up and down inside the housing to convey the web while rotating in contact with the non-printed surface of the web,
Between the hot rolls facing up and down is arranged a turn bar for extending the conveying path of the web,
And the hot air providing means supplies hot air horizontally toward each turn bar such that the printing surface of the web does not contact the surface of the turn bar. The method of claim 2,
And the turn bar further comprises a through hole formed in a surface facing the web and a hot air blower for discharging hot air into the through hole. 3. The method according to claim 1 or 2,
The hot air providing means is a drying device for a printed electronic device, characterized in that the hot air blower installed up and down on the side wall of the housing. 3. The method according to claim 1 or 2,
The hot air providing means is a through-hole formed on the side wall of the housing up and down, and a hot air fan installed on the outside of the housing for supplying hot air to the inside of the housing through the through hole. The method of claim 1,
Drying apparatus for a printed electronic device, characterized in that the temperature of the hot air provided on the printing surface of the web through the hot air providing means and the temperature of each hot roll is independently controlled in accordance with the drying section.

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