KR101321047B1 - Temperature control apparatus for doctor blade and dry apparatus using same - Google Patents

Abstract

The present invention relates to a device for controlling the temperature of the doctor blade, in particular, by attaching a thermoelectric element on one side of the doctor blade to adjust the temperature of the doctor blade so that the conductive ink in contact with the doctor blade at a suitable temperature print quality and It relates to a temperature control device of a doctor blade that can ensure reliability and a drying device using the same.

Description

Temperature control device for doctor blade and drying device using same {Temperature control apparatus for doctor blade and dry apparatus using same}

The present invention relates to a device for controlling the temperature of the doctor blade, in particular, by attaching a thermoelectric element on one side of the doctor blade to adjust the temperature of the doctor blade so that the conductive ink in contact with the doctor blade at a suitable temperature print quality and It relates to a temperature control device of a doctor blade that can ensure reliability and a drying device using the same.

Recently, the field of printed electronics, which produces electronic devices by printing method, has gained much attention, including mass production of low-cost products such as RFID antennas, polymer transistors, flexible displays, and solar cells.

Printed electronic devices are produced with the concept of a conventional printing press, but functional inks such as insulating, semiconducting, and conductive materials should be printed on low-cost films. It should not be exceeded.

In the doctoring process, as is well known, only a pattern remains on a printed object supplied by a process of removing ink from a non-image part using a doctor blade so that ink supplied to the plate making of the plate making roller R remains only in the pattern portion. (See Fig. 1)

At this time, the doctor blade (D) is in contact with the plate-making roller (R) but is installed in the housing (H).

At this time, the doctor blade (D) should be in contact with the plate making at high pressure so that the pattern does not remain in the non-image portion, it is very important that the ink does not remain in the non-image portion in the case of electronic printing.

In particular, when using a nano-type conductive ink because very fine particles are used, the adhesion and contact pressure of the doctor blade (D) must be very high.

In this case, however, high frictional heat may generate high frictional heat due to high contact pressure.

 However, in general, an electronic printing ink such as a conductive ink can be printed on a material such as low-cost PET only when the firing temperature is 150 degrees or less, and thus, the firing temperature is manufactured to 150 degrees or less.

Therefore, the conductive ink can be easily dried during the doctoring process due to high frictional heat, and the ink dried on the doctor blade D has a problem of lowering the doctoring performance and degrading print quality and reliability.

On the contrary, if the temperature of the doctor blade (D) is too low, there is a problem of similarly lowering the doctoring performance to reduce print quality and reliability.

The present invention is to solve the above-mentioned problems by using a thermoelectric element installed in the doctor blade doctor blade cooling apparatus that can ensure the print quality and reliability by maintaining the temperature of the doctor blade within a certain range, thereby It is an object to provide a drying apparatus used.

The present invention for achieving the above object has a feature in the temperature control device of the doctor blade for controlling the temperature of the doctor blade (D) including a thermoelectric element 130 is installed on one side of the doctor blade (D). .

In this case, the doctor blade (D) further comprises a temperature sensor 150 and a controller 160 connected to the temperature sensor 150 and the thermoelectric element 130, the thermoelectric element 130 is the The heat absorbing unit 131 may be attached to one side of the housing H in which the doctor blade D is accommodated, and the heat radiating unit 132 attached to the heat absorbing unit 131.

In addition, the heat absorbing unit 131 is a flat portion 131a mounted in a flat shape at one end of the housing H, and protrudes from the flat portion 131a, but the inside of the housing H and the doctor blade ( D) may include an insertion part 131b penetrating through the inside.

In addition, the heat absorbing unit 131 is a flat portion 131c mounted in a flat shape at one end of the housing H, protrudes from the flat portion 131c, is inserted into the housing H, and the doctor The blade D may include an accommodation part 131d accommodated therein.

In addition, the housing H may include an inner part H1 into which the doctor blade D is inserted, and an outer part surrounding the inner part H1 and having an empty space formed between the inner part H1 and the inner part H1. H2), and the heat absorbing unit 131 has a flat portion 131c mounted in a flat shape at one end of the housing H, and protrudes from the flat portion 131c, but with the inner portion H1. It may include a receiving portion (131d) is inserted into the empty space between the outer portion (H2) is accommodated inside the outer portion (H2).

The heat dissipation unit 132 may further include a heat dissipation unit 120 that emits heat to the outside, wherein the heat dissipation unit 120 is in contact with the heat dissipation unit 132 and the heat dissipation unit 121. It is also possible to include a fan 122 installed inside the heat generating housing 121.

In addition, the present invention is a drying device 300 for drying the web (W) of the roll-to-roll printing apparatus 200 by using the temperature control device 100 of the doctor blade, the drying device 300 is the web ( W) is another feature of the drying apparatus including a dryer 310 for drying the duct 320 for transferring the heat emitted from the temperature control device 100 to the dryer 310.

According to the present invention as described above, while maintaining the doctoring performance of the doctor blade there is an effect that can ensure the print quality and reliability.

1 is a conceptual diagram showing a general configuration of a doctor blade.
2 to 5 is a conceptual diagram showing various embodiments of the temperature control device of the present invention.
6 is a conceptual diagram showing a drying device using the temperature control device of the present invention.

Before describing the various embodiments of the present invention in detail, it will be appreciated that the application is not limited to the details of construction and arrangement of components described in the following detailed description or illustrated in the drawings.

The invention may be embodied and carried out in other embodiments and carried out in various ways.

In addition, device or element orientation (e.g., "front", "back", "up", "down", "top", "bottom" The expressions and predicates used herein with respect to terms such as "," left "," right "," lateral ", etc. are used merely to simplify the description of the present invention, It will be appreciated that the element does not simply indicate or mean that it should have a particular direction.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and examples.

Example

The temperature control device 100 of the present invention includes a thermoelectric element 130 installed on one side of the doctor blade (D) as described above to adjust the temperature of the doctor blade (D).

The thermoelectric element 130 uses a Peltier effect as is well known.

The Peltier effect is a phenomenon in which two types of metal tips are connected and a current is flowed therein, whereby one terminal absorbs heat and the other terminal generates heat according to the current direction.

By using a semiconductor such as bismuth tellurium having different electric conduction methods instead of the two kinds of metals, a Peltier element having an efficient endothermic and heat generating effect can be obtained.

As described above, the Peltier element can switch between endotherm and heat generation in accordance with the current direction, and the endothermic and heat generation amount can be adjusted according to the amount of current.

As described above, the thermoelectric element 130 of the present invention includes an endothermic unit 131 for absorbing and cooling the heat absorbing unit and a heat dissipation unit 132 for generating heat.

The doctor blade (D) is in contact with the doctor blade (D) to prevent the doctor blade (D) from overheating and reverse the current direction supplied to the thermoelectric element (130) to the doctor blade (D) It does not overcool so that the doctor blade (D) is always in a constant temperature range.

At this time, the role of the heat absorbing unit 131 and the heat dissipation unit 132 is naturally reversed.

On the other hand, the doctor blade (D) may further include a temperature sensor 150 and a controller 160 connected to the temperature sensor 150 and the thermoelectric element 130 is provided on one side.

After the temperature of the doctor blade D is checked by the temperature sensor 150, the thermoelectric element 130 is driven to heat or cool the doctor blade D, and such control is performed by the controller 160. Is performed.

Meanwhile, the temperature sensor 150 may use a contact temperature sensor such as a thermocouple.

That is, the temperature sensor 152 contacting the doctor blade D or the temperature sensor 151 installed in the housing H may be used.

In addition, the temperature sensor 150 may use a non-contact temperature sensor 153 such as an optical temperature meter.

When the temperature of the doctor blade (D) is measured using such a contact or non-contact temperature sensor, the signal is transmitted to the controller 160 to control the current supplied to the thermoelectric element 130 to control the thermoelectric element 130. ) Cooling performance or heating performance can be adjusted.

Meanwhile, in FIG. 2, the temperature sensor 150 is conceptually represented in a quadrangular shape, which is omitted since the temperature sensor 150 is a well known configuration.

By the above-described operation, the doctor blade D can be in an appropriate temperature range.

Meanwhile, the heat absorbing unit 131 and the heat radiating unit 132 may be installed in a flat shape at one end of the housing H, as shown in FIG. 2.

In addition, as shown in FIG. 3, the heat absorbing unit 131 has a flat portion 131a mounted in a flat shape at one end of the housing H, and protrudes from the flat portion 131a. It may include an insertion part 131b penetrating through the inside and the doctor blade (D).

By the shape as described above, the contact area between the insertion portion 131b and the doctor blade D is increased to facilitate temperature control of the doctor blade D.

Meanwhile, as shown in FIG. 4, the heat absorbing unit 131 has a flat portion 131c mounted in a flat shape at one end of the housing H, and protrudes from the flat portion 131c to protrude from the housing H. Inserted therein may include a receiving portion (131d) that is received therein the doctor blade (D).

That is, the shape similar to that of FIG. 3 but different from that of FIG. 3 is that the accommodation portion 131d receives the doctor blade D.

Such a shape also increases the contact area between the insertion portion 131b and the doctor blade D, thereby facilitating temperature control of the doctor blade D.

In addition, as shown in FIG. 5, the housing H surrounds the inner portion H1 into which the doctor blade D is inserted, and the inner portion H1, and has an empty space between the inner portion H1 and the inner portion H1. It may include an outer portion (H2) is formed.

At this time, the heat absorbing unit 131 is a flat portion 131e which is mounted in a flat shape on one end of the housing (H), and protrudes from the flat portion 131e, the inner portion (H1) and the outer portion (H2) It is inserted into the empty space between the and includes the receiving portion (131f) is accommodated therein the outer portion (H2).

That is, the difference from the case of FIG. 4 is that the accommodation portion 131f accommodates up to the inner portion H1 surrounding the doctor blade D.

This is also to facilitate the temperature control of the doctor blade (D) more.

Meanwhile, as illustrated in FIGS. 2 to 5, the heat dissipation unit 132 may further include a heat generating unit 120 that emits heat to the outside.

The heat generating unit 120 discharges the heat generated from the thermoelectric element 130 to the outside to cool the doctor blade (D) more easily.

In this case, the heat generating unit 120 may include a heat generating housing 121 in contact with the heat dissipation unit 132 and a fan 122 installed inside the heat generating housing 121.

Hereinafter, a drying apparatus 300 for drying the web W of the roll-to-roll printing apparatus 200 by using the temperature control apparatus 100 of the doctor blade as described above will be described with reference to FIG. 6.

First, the roll-to-roll printing apparatus 200 will be described.

The roll-to-roll printing apparatus 200 is a device for printing a web (W) to be printed using a roll, as is widely known.

To this end, it may include a rewinder 210 for releasing the web (W) and an unwinder 220 for winding the web (W).

At this time, it may include a roller unit 230 disposed between the rewinder 210 and the unwinder 220 to print the web (W).

Since such a configuration is well known, a detailed description thereof will be omitted.

Meanwhile, the temperature control device 100 of the doctor blade as described above is conceptually illustrated on one side of the roller unit 230.

In this case, heat may be generated in the temperature control device 100 as described above. That is, heat may be generated from the heat generating part 120 or heat may be generated from the heat dissipation unit 132 of the thermoelectric element 130.

Drying apparatus 300 of the present invention is a device for drying the web (W) using the heat generated from the heat generating unit 120 or the heat dissipation unit 132.

That is, the drying apparatus 300 includes a dryer 310 for drying the web W and a duct 320 for transferring the heat emitted from the temperature control device 100 to the dryer 310.

The dryer 310 may be, for example, a method of applying hot air to the web (W) side by using heat generated by the temperature control device 100.

Of course, the dryer 310 is a room for the purpose of drying the web (W) by using the heat generated by the temperature control device 100, so long as the purpose is achieved, the dryer 310 is a different way Naturally, even if the web W is dried, it belongs to the scope of the present invention.

On the other hand, the duct 320 is intended to transfer the heat generated from the temperature control device 100 to the dryer 310, bar as long as the duct 320 takes any way to achieve this purpose. Naturally, all belong to the scope of the present invention.

By the drying apparatus 300 of the present invention described above, it is possible to improve the thermal efficiency by using heat generated in the temperature adjusting device 100 for the heat required for drying the web W.

100: thermostat H: housing
120: heat generating unit 130: thermoelectric element
140: Fan D: Doctor Blade

Claims (7)

A thermoelectric element 130 disposed on one side of the doctor blade D and controlling the temperature of the doctor blade D,
A temperature sensor 150 installed at one side of the doctor blade D,
The controller 160 is connected to the temperature sensor 150 and the thermoelectric element 130,
The thermoelectric element 130 includes a heat absorption unit 131 attached to one side of the housing H in which the doctor blade D is accommodated, and a heat dissipation unit 132 attached to the heat absorption unit 131.
The housing H surrounds the inner portion H1 into which the doctor blade D is inserted and the inner portion H1, and an outer portion H2 having an empty space formed between the inner portion H1 and the inner portion H1. Including,
The heat absorbing unit 131 is a flat portion 131e mounted in a flat shape at one end of the housing H, and protrudes from the flat portion 131e, but is disposed between the inner portion H1 and the outer portion H2. Is inserted into the empty space of the outer portion (H2) is the temperature control device of the doctor blade comprising a receiving portion (131f) accommodated therein. delete delete delete delete The method of claim 1,
The heat dissipation unit 132 is further provided with a heat generating unit 120 for dissipating heat to the outside,
The heat generating unit 120 is a temperature control device of the doctor blade, characterized in that it comprises a heat generating housing 121 in contact with the heat dissipation unit (132) and a fan (122) installed inside the heat generating housing (121). A drying apparatus 300 for drying the web W of the roll-to-roll printing apparatus 200 by using the temperature adjusting device 100 of the doctor blade according to claim 1 or 6,
The drying apparatus 300 includes a dryer 310 for drying the web W and a duct 320 for transferring the heat emitted from the temperature control device 100 to the dryer 310. Drying device.

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