KR20180018035A - Closed-type drying apparatus and drying method - Google Patents

Abstract

The present invention relates to a closed coating film drying apparatus and a drying method thereof. According to the present invention, the closed coating film drying apparatus comprises: a drying chamber (110) which comprises: a drying space (111) to dry a coating film (1) horizontally penetrating and passing through; an air port (111a) placed on one side to transfer high-temperature air to the drying space (111); and an exhaust port (111b) placed on the other side to discharge all drying air, which is used to dry the coating film (1), to the outside; an external air inflow chamber (120) isolated from the drying space (111) of the drying chamber (110) but installed to be close to the drying chamber (110) to allow the introduced heated air to keep a high temperature through heat exchange with the drying chamber (110); a drying heater (130) installed on an entrance side of the external air inflow chamber (120) to heat external air introduced into the external air inflow chamber (120); and an air supply duct connected to a discharge side of the external air inflow chamber (120) to supply high-temperature drying air discharged from the external air inflow chamber (120) to a supply port of the drying chamber (110). The present invention provides the closed coating film drying apparatus and drying method thereof, which are able to reduce the defective coating by fumes and a heating temperature of a heater, thereby decreasing electric power loss.

Description

[0001] Closed-type drying apparatus and drying method [0002]

The present invention relates to a closed-type coating film drying apparatus such as an organic solar battery (OPV) and a drying method.

More specifically, instead of eliminating the conventional method of re-introducing a portion of the internal air discharged from the drying chamber into the drying chamber, the entire internal air is discharged to the outside, and only the external air is supplied to the drying chamber, And the outside air is heat exchanged with the drying chamber, so that the heated external air can be maintained in a heated state, so that the heating temperature of the heater can be lowered, Apparatus and a drying method.

Generally, a coating film is a film on which a coating liquid is applied and then dried to form a coating film, which cures the coating liquid through a drying apparatus.

That is, in the drying apparatus for a coating film, a coating liquid coated on a surface of a film to a predetermined thickness is dried by hot hot air to cure the coating liquid. In this dryer, hot air introduced into a duct faces a film, Thereby forming a uniform film by drying the coating solution coated on the surface of the film moving at a constant speed.

1 is a schematic view of a conventional coating film drying apparatus.

The conventional coating film drying apparatus 10 shown in FIG. 1 includes a drying chamber 11 for forming a space for drying a coating film 1 passing through in a horizontal state, A re-inflow duct 13 for re-flowing the remaining air in the drying chamber 11 into the inside of the drying chamber 11, an exhaust port 12 for discharging the re- And a heater (14) disposed between the drying chamber (11) and heating the air re-introduced into the drying chamber from the re-inflow duct to allow hot air to flow into the drying chamber (11). In addition, an air supply duct (15) for supplying outside air is installed in the rear of the heater (14) of the re-inflow duct (13).

The conventional coating film drying apparatus 10 having such a structure is constructed such that a part of dry air in the drying chamber 11 is re-introduced into the drying chamber 11 through the re-inflow duct 13, And adhere to the coating film (1) during the drying process, resulting in product defects.

In the conventional coating film drying apparatus 10, since some air discharged from the drying chamber 11 is recirculated and heated, the external air is mixed while being introduced into the drying chamber 11, so that the drying chamber 11 It has been difficult to rapidly raise the temperature of the air to be introduced. Therefore, the temperature of the heater 14 has to be increased, which leads to an increase in electric consumption.

1. Patent Publication No. 10-1029746, Coating Film Dryer 2. Open Patent Publication No. 10-2015-0116536, Conductive Film Dryer 3. Utility model publication No. 20-1995-0007081, drying device of coating film

The present invention eliminates the conventional method of re-introducing part of the internal air discharged from the drying chamber into the drying chamber, instead of discharging all the internal air to the outside and putting only the external air into the drying chamber, And the outside air is heat exchanged with the drying chamber so that the heated external air can be kept heated so that the heating temperature of the heater can be lowered to lower the power loss, .

The present invention also provides a method of drying the closed coating film.

According to one aspect of the present invention, there is provided a drying apparatus for drying a coating film passed through in a horizontal state, comprising an air port for airing high temperature air to the drying space on one side, A drying chamber having an exhaust port for exhausting the entire amount of dry air from which the coating film is dried; An outside air inflow chamber which is isolated from the drying space of the drying chamber and installed in close contact with the drying chamber so that the heated outside air can maintain a high temperature state through heat exchange with the drying chamber; A drying heater installed at an inlet side of the outside air inlet chamber to heat external air introduced into the outside air inlet chamber; And an air supply duct connected to the exhaust side of the outside air inflow chamber and supplying high temperature dry air exhausted from the outside air inflow chamber to a supply port of the drying chamber.

Preferably, the drying air distribution nozzle further comprises a dry air atomizing nozzle provided at a supply port of the drying chamber, wherein the dry air atomizing nozzle has a first surface facing the coating film, and a second surface facing the second film, , And three surfaces, wherein the perforations are formed on one of the first surface, the second surface, and the third surface.

The apparatus may further include a far-infrared ceramic heater provided at a lower portion of the dry air spraying nozzle.

Preferably, a plurality of guide rollers for guiding the progression of the coating film are rotatably installed in the drying chamber, and the guide rollers are connected to the servo motor by a belt or a chain and are rotationally driven at the same time, The motor may further include a control unit for controlling the rotational speed of the motor.

According to another aspect of the present invention, there is provided a method for drying a coating layer of a coating film passing through a drying space of a drying chamber, comprising the steps of forming an outside air inflow space isolated from the drying space in close contact with the drying space, The outside air heated by the heater flows into the drying space while keeping the outside air heated by the heat of the drying space to dry the coating layer of the coating film and then discharge the entire amount to the outside of the drying space A method of drying a coated film is provided.

In the present invention, instead of the existing method of re-introducing a part of the internal air discharged from the drying chamber into the drying chamber, the entire internal air is discharged to the outside and only the external air is supplied to the drying chamber, Can be improved.

In addition, the present invention is configured such that the outside air is exchanged with the drying chamber so that the heated outside air can be maintained in a heated state, so that the heating temperature of the drying heater can be lowered compared with the conventional method.

1 is a schematic diagram of a conventional circulating coating film drying apparatus
2 is a schematic view of an approximate diagram of a closed coating film drying apparatus according to the present invention
3 is a perspective view of a closed coating film drying apparatus according to the present invention.
FIG. 4 is a perspective view of the apparatus for drying a closed coating film according to the present invention,
5 is a front view of a closed coating film drying apparatus according to the present invention
6A is a plan view of the nozzle plate
Fig. 6B shows another configuration of the nozzle plate
7 is a view showing the rotating means of the guide roller according to the present invention,

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

The terms used in the present invention are defined in consideration of the functions of the present invention and may vary depending on the intention or custom of the user or the operator. Therefore, the definitions of these terms are meant to be in accordance with the technical aspects of the present invention As well as the other.

In addition, optional terms in the following embodiments are used to distinguish one element from another element, and the element is not limited by the terms. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, detailed description of related arts which may unnecessarily obscure the gist of the present invention will be omitted.

FIG. 3 is a perspective view of a closed coating film drying apparatus according to the present invention, and FIG. 4 is a perspective view of a closed type coating film drying apparatus according to the present invention. Fig. 3 is a perspective view of the drying apparatus viewed from the other direction. Fig.

2 to 4, the apparatus 100 for drying a closed coated film according to the present invention discharges the entire amount of dry air in the drying chamber 110 without recirculation, And the outside air inflow chamber 120 in which the outside air is introduced is disposed close to the drying chamber 110 so that the outside air is heated by the heat of conduction in the drying chamber, The closed coating film drying apparatus 100 has a drying chamber 110, an outside air inflow chamber 120, a drying heater 130, and an air supply duct 140 ).

The drying chamber 110 has a drying space 111 for drying the coating film 1 passing through in a horizontal state and an air port for supplying high temperature air to the drying space 111 And an exhaust port 111b for exhausting the entire amount of dry air from the coating film 1 to the outside.

As shown in FIG. 5, a guide roller 113 may be installed inside the drying chamber 110 to guide the coating film 1 horizontally.

The guide roller 113 may be disposed such that an upper guide roller 113a disposed on the upper side of the drying chamber 110 and a lower guide roller 113b disposed on the lower side of the drying chamber 110 are symmetrical.

According to this configuration, the upper guide roller 113a guides the coating film 1 conveyed to the right side in the figure from below, and the lower guide roller 113b guides the coating film 1, (U-turn) by the upper and lower guide rollers 113a-1 and 113b-1 disposed at the distal end of the main body 1 to be reversed (conveyed to the left in the drawing) .

7, the guide rollers 113a and 113b connect the guide roller axes exposed rearward of the drying chamber 110 to the belt motor 141 and the belt 142, And can be rotated collectively by a chain, unlike the above.

Here, the servomotor 140 can control its rotation speed by a control unit (not shown). Therefore, it becomes possible to control the conveying speed of the coating film 1.

In addition, a dry air spray nozzle 112 may be installed in the supply port 111a of the drying chamber 110.

The dry air spraying nozzle 112 includes a first surface 112a facing the coating film 1 and a second surface 113b perpendicular to the coating film 1, And a perforation 112d may be formed on one of the first surface 112a and the second and third surfaces 112b and 112c. In the case where a pore is formed on the first surface 112a, the dry air is concentratedly sprayed onto the coating film 1. When pores are formed on the second and third surfaces 112b and 112c, A nozzle provided with a perforation on the first surface 112a is used for drying the property and a perforation is formed on the second and third surfaces 112b and 112c during oily drying, You can use it.

The outside air inflow chamber 120 is characterized in that it is isolated from the drying space 111 of the drying chamber 110 and is installed in close contact with the drying chamber 110 and is heated by the drying heater 130 Thereby allowing the outside air to maintain a high-temperature state through heat exchange with the drying chamber 110.

That is, the outside air inlet chamber 120 must maintain a high temperature state until the outside air heated by the drying heater 130 is introduced into the drying chamber 110. The outside air inlet chamber 120 Since it is in close contact with the high-temperature drying chamber 110, heat exchange is performed with the wall surface heated by the heat in the drying chamber 110, so that it can be introduced into the drying chamber 110 while maintaining a high- Accordingly, since the power applied to the drying heater 130 can be damped compared with the conventional one, power loss can be reduced.

The drying heater 130 is installed on the inlet side of the outside air inlet chamber 120 and serves to heat the outside air flowing into the outside air inlet chamber 120.

The air supply duct 140 is connected to the exhaust side of the outside air inflow chamber 120 and supplies high temperature dry air exhausted from the outside air inflow chamber 120 to the supply port 111a of the drying chamber 110 The giver plays a role.

Accordingly, the outside air heated by the drying heater 130 installed at the inlet side of the outside air inflow chamber 120 flows into the inside of the outside air inflow chamber 120, and the heated outside air introduced into the outside air inflow chamber 120 flows into the drying chamber 110 And is supplied to the final drying chamber 110 via the air supply duct 140 while maintaining a high temperature state.

The high-temperature outside air supplied to the drying chamber 110 is dried out of the entire amount through the exhaust port 111b after drying the coated surface of the coating film 1 passing through the drying space 111.

In addition, a far infrared ceramic heater (IR heater) 160 may be installed under the drying air spraying nozzle 112 to adhere the coating film 1 thereto.

The far infrared ray ceramic heater 160 has three methods of conduction, convection, and radiation as is well known in the heat transfer method. Of these, the heat transfer efficiency is the highest, to be. Unlike conduction or convection, infrared rays radiate heat, which transfers heat directly, without the need for an intermediate heating medium. This radiation heat is generated by jerking to the object to be heated irrespective of the middle air layer. In particular, the far- (1) inside of the coating film (1) to be heated because it has a property of causing heat to be generated inside the material by causing resonance in the magnetic flux when it touches the molecule of the substance having the energy, And is advantageous for heating, and is particularly advantageous for property drying.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification or improvement is possible.

It is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: Closed coating film drying device
110: drying chamber 111: drying space
112: minute nozzle 113: guide roller
120: outside air inlet chamber 130: drying heater
140: Supply duct 150: Servo motor

Claims (5)

And a drying space 111 for drying the coating film 1 passing through in a horizontal state and having an air port 111a for air to the drying space 111 at one side, A drying chamber 110 having an exhaust port 111b for exhausting the entire amount of dry air that has dried the coating film 1 to the outside;
The drying chamber 110 is separated from the drying space 111 and is installed in close contact with the drying chamber 110 so that the heated outside air can maintain the high temperature state by heat exchange with the drying chamber 110. [ An inlet chamber 120;
A drying heater 130 installed at an inlet side of the outside air inlet chamber 120 to heat the outside air flowing into the outside air inlet chamber 120;
And an air supply duct 140 connected to the exhaust side of the outside air inflow chamber 120 to supply hot air of high temperature discharged from the outside air inflow chamber 120 to a supply port of the drying chamber 110 Lt; RTI ID = 0.0 > a < / RTI >
The method according to claim 1,
Further comprising a dry air spray nozzle (112) provided in an air port (111a) of the drying chamber (110)
The drying air spraying nozzle 112 includes a first surface 112a facing the coating film 1 and second and third surfaces 112b and 112c perpendicular to the coating film 1 , Further comprising a perforation (112d) formed on one of the first surface (112a) or the second, third surface (112b, 112c).
The method according to claim 1,
Further comprising a far-infrared ceramic heater (IR heater) 160 installed at a lower portion of the drying air spray nozzle 112.
The method according to claim 1,
A plurality of guide rollers 113 for guiding the progress of the coating film 1 are rotatably installed in the drying chamber 110. The guide rollers 113 are rotatably supported by a servo motor 150 and a belt 152) or a chain and is rotationally driven at the same time, and the servomotor (150) is further controlled by the control unit so that the rotational speed thereof is controlled.
As a method for drying a coating layer of a coating film (1) passing through a drying space (111) of a drying chamber (110)
The outside air inflow chamber 120 isolated from the drying space 111 is formed and the outside air heated by the drying heater 130 is introduced into the outside air inflow chamber 120, A closed coating film drying method in which the outside air flows into the drying space 111 while the outside air is heated by the heat to dry the coating layer of the coating film 1 and then discharges the entire amount to the outside of the drying space 111 .

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