KR200485681Y1 - dry chamber of dryer for powder coating - Google Patents

Abstract

According to an embodiment of the present invention, a drying chamber of a powder dryer dryer includes a top panel that forms an upper surface of a cavity into which a workpiece is introduced; And a side panel disposed below the upper panel to form both side surfaces of the cavity portion; Wherein one of the top panel and the side panel includes a first bending panel having a first bent surface formed with the cavity and bent perpendicularly to a side surface of the flat surface to form a receiving portion; A second bending panel which forms the cavity and has a receiving part formed by bending perpendicularly to the side surface of the flat surface and arranged in parallel with the first bending panel to form a second bent surface coupled to the first bending surface; A connecting frame in which one side is laterally coupled to the first folding surface and the second folding surface and the other side is bent perpendicularly from the one side; And a color steel plate coupled to the other side of the connection frame to form a space between the first bending panel and the second bending panel. .

Description

Dry chamber of dryer for powder coating [0002]

More particularly, the present invention relates to a drying chamber of a dryer for powder coating, which is simple in construction and excellent in productivity and workability, and has improved heat insulation performance.

Powder coating is a coating method in which a solid powder coating is sprayed on the object to be painted, and then the paint is heated and melted to form a coating on the surface of the object. It is excellent in corrosion resistance, durability and chemical resistance Is a coating method widely used in industrial products such as various automobile parts, fences, household appliances, and kitchen appliances.

The powder coating process mainly includes a degreasing process for removing foreign substances such as rust preventive oil remaining on the surface of the substrate, a washing process for cleaning the degreasing agent on the surface of the substrate, a pretreatment drying process for removing water remaining on the surface of the substrate, A film forming step of forming a coating film by melting after melting, and a post-treatment drying step of drying the coating material so that the coating film is firmly adhered to the substrate.

The pretreatment drying or posttreatment drying process is carried out in a powder dryer dryer. The drying machine is divided into an acid type, a balance type and a batch type depending on the shape. The drying type is indirect heat type, direct type, far infrared type, mixed type, .

FIG. 1 is a schematic view of a dryer for general powder coating, and FIG. 2 is a view showing a part of a drying chamber of a dryer for general powder coating. 1 and 2 is an indirect hot air type equilibrium dryer in which a drying chamber 1 in which a workpiece m is introduced into a conveyor 50 is provided on an upper part of a supporting structure 40 provided on the ground, And the hot air is supplied from the hot air generator 30 disposed on the drying chamber 1 to the cavity S in the drying chamber 1. [ An air curtain unit 60 and an air curtain unit 61 are provided at the entrance and exit sides of the drying chamber 1 to seal hot air in the cavity S.

Here, the coating quality of the coating material and the power consumption of the dryer vary depending on the heat insulation performance of the drying chamber, and the drying chamber having a high heat insulation performance has a problem in that productivity is reduced due to complicated structure. Therefore, it is important to design a drying chamber so as to have a simple structure and excellent productivity while securing good heat insulating performance. The heat insulating performance and productivity are determined according to the structure of the panel forming the upper and side surfaces of the drying chamber.

3 is an exploded view of the top panel 20 or the side panel 10 of the drying chamber of the powder dryer dryer. The top panel 20 or the side panel 10 of the prior art drying chamber shown in Fig. 3 includes a rectangular hollow frame having a plurality of horizontal frames 11, a vertical frame 12 and a supporting frame 13). Then, the joint portions are individually welded to form a space for receiving the heat insulating material therein. After filling the space with the heat insulating material, a general steel plate is formed on the inner surface of the cavity portion, and a colored steel plate 14 is formed on the outer surface And one panel was made.

In this case, since the rectangular hollow frame is cut to meet the designed dimensions of the horizontal frame 11, the vertical frame 12, and the horizontal and vertical support frames 13, a long time is required for the cutting process. It takes a lot of time to manufacture by carrying out a number of welding processes, resulting in an increase in production cost and a decrease in productivity.

Also, since at least three panels must be fabricated to form the upper side and both side surfaces, it took a lot of time to manufacture the final drying chamber.

In addition, since the heat transfer is performed through the frame, there is a problem that it is difficult to secure the heat insulating performance because there are many heat-conducting contacts. Therefore, it is necessary to develop a dry chamber having a good heat insulating performance while improving productivity by simplifying the structure.

A problem to be solved by the present invention is to provide a drying chamber of a powder dryer dryer having a simple structure and excellent productivity and workability and having improved heat insulating performance.

The tasks of the present invention are not limited to the above-mentioned tasks, and other tasks not mentioned may be clearly understood by those skilled in the art from the description below.

According to an aspect of the present invention, there is provided a drying chamber of a dry powder dryer, including: a top panel defining an upper surface of a cavity into which a workpiece is introduced; And a side panel disposed below the upper panel to form both side surfaces of the cavity portion; Wherein one of the top panel and the side panel includes a first bending panel having a first bent surface formed with the cavity and bent perpendicularly to a side surface of the flat surface to form a receiving portion; A second bending panel which forms the cavity and has a receiving part formed by bending perpendicularly to the side surface of the flat surface and arranged in parallel with the first bending panel to form a second bent surface coupled to the first bending surface; A connecting frame in which one side is laterally coupled to the first folding surface and the second folding surface and the other side is bent perpendicularly from the one side; And a color steel plate coupled to the other side of the connection frame to form a space between the first bending panel and the second bending panel. .

The first bent surface may be formed by bending a flat surface of the first bending panel.

In addition, the connection frame may have a cross-sectional shape, and one side of the connection frame may be welded to the first bent surface and the second bent surface.

In addition, the drying temperature in the cavity is 150 to 250 ° C., the glass wool is filled in the receiving part and the spacing space, and the second folded surface is bonded to the first folded surface by heat- have.

An inner fixing frame may be provided between the inner side of the upper panel and the inner side of the side panel to fix the upper panel and the side panel.

An external fixed frame may be provided between the outside of the top panel and the outside of the side panel to secure the top panel and the side panel and block external air from entering the inside of the cavity.

The first bending panel may include a third bending surface extending from the first bending surface and bent perpendicularly to the first bending panel and extending from the second bending surface to the second bending panel, A fourth folded surface forming the same plane as the folded surface is formed, and the connecting frame may have a cross section of a " C "shape so that one side may be bolted to the third folded surface and the fourth folded surface.

The first bending panel may have a first seating portion formed to be recessed between the flat surface and the first folding surface, and the second folding panel may be formed in the second folding panel by being recessed between the flat surface and the second folding surface And a second seat part for forming a heat-resistant frame seat part together with the first seat part is formed, and a heat-resistant frame coupled to the heat-resistant frame seat part and insulated between the first curved surface and the second curved surface is coupled have.

Further, the heat-resistant frame may have a cross section of "T" and a heat-resistant silicon layer may be provided at the end of the heat-resistant frame.

In addition, the first bent surface, the second bent surface, and the heat resistant frame may be integrally joined through a bolt.

The details of other embodiments are included in the detailed description and drawings.

According to the drying chamber of the dryer for powder powder coating according to one embodiment of the present invention, a plurality of vertical frames, horizontal frames, and support frames are cut and welded individually, The first folding portion, the second folding portion, and the connecting frame, thereby securing the support structure, thereby improving the productivity.

Further, since the heat transfer contacts are transferred only from the welded portion formed on the connection frame, the first bent surface, and the second bent surface, there is an advantage that the heat transfer contact is reduced and the heat insulating performance is improved.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a schematic view of a dryer for general powder coating.
Fig. 2 is a view showing a part of a drying chamber of a general powder coating dryer.
3 is an exploded view of a top panel or a side panel of a drying chamber of a conventional powder dryer dryer.
4 is a partially exploded view of a top panel or a side panel of a drying chamber of a dryer for powder powder coating according to an embodiment of the present invention.
FIG. 5 is a cross-sectional view of a drying chamber coupled with a side panel and a top panel according to an embodiment of the present invention.
6 is a partially exploded view of a top panel or a side panel of a drying chamber of a dryer for powder coating according to another embodiment of the present invention.
7 is a view showing a heat-resistant frame and a heat-resistant frame seat of a drying chamber of a dryer for powder coating according to another embodiment of the present invention.
8 is a plan view showing a state in which the heat resistant frame shown in Fig. 7 is engaged.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. Even if the terms are the same, it is to be noted that when the portions to be displayed differ, the reference signs do not coincide.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not intended to limit the scope of the invention.

The terms first, second, etc. in this specification may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted in an ideal or overly formal sense unless explicitly defined in the present application Do not.

Also, when a part is referred to as "including " an element, it does not exclude other elements unless specifically stated otherwise.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

4 is a view showing a part of an exploded view of the top panel 20 or the side panel 10 of the drying chamber of the powder dryer dryer according to one embodiment of the present invention, Sectional view of the drying chamber to which the panel 10 and the top panel 20 are coupled.

2, 4 and 5, the drying chamber of the dryer for powder powder coating according to an embodiment of the present invention includes a top panel 20 forming an upper surface of a cavity S into which the work m is introduced, And a side panel 10 disposed below the upper panel 20 and forming both side surfaces of the cavity S, respectively.

The upper panel 20 is a panel located on the upper part of the drying chamber as shown in Fig. 2, and forms the upper surface of the cavity S into which the work m is drawn.

The hollow portion S is a place where the coated m formed with the coated film is drawn in and dried, and the coated m is drawn by the conveyor 50. The drying method according to one embodiment of the present invention can be carried out by an indirect hot air type in which dry air is supplied to the cavity S by the hot air generator 30 to dry the substrate m, And a far infrared ray type in which the substrate m is heated by transferring radiant heat directly to the cavity S to the cavity S, may be performed.

The side panels 10 are arranged in a vertical direction on the lower side of the upper panel 20, and are arranged on both sides in pairs. Hereinafter, the vertical direction will be described in a direction perpendicular to the support structure 40 disposed on the ground. A pair of side panels (10) form both side surfaces of the cavity (S).

The support structure 40 shown in FIG. 2 may be disposed at the bottom of the drying chamber to form a cavity S together with the top panel 20 and the side panels 10.

One upper panel 20 is horizontally disposed on the pair of side panels 10, and in this case, can be defined as one set of panels constituting the drying chamber. In addition, a set of panels composed of the top panel 20 and the side panel 10 may be arranged to extend in the longitudinal direction by a plurality of lengths depending on the length of the drying chamber.

The upper panel 20 and the side panel 10 constituting one set of panels will be described below. The upper panel 20 and the side panel 10, which can be extended in the longitudinal direction of the drying chamber, Will be described as the same as the top panel 20 and the side panel 10 described above.

One of the top panel 20 and the side panel 10 according to one embodiment of the present invention includes a cavity portion S and is bent perpendicularly to the side surface of the flat surface 113 to define a receiving portion C A first bending panel 110 formed with a first folding surface 111 to form a cavity portion S and a second folding panel 110 having a cavity portion S formed by folding a receiving portion C perpendicular to the side surface of the flat surface 123, A second bending panel 120 disposed in parallel with the first bending panel 110 and having a second bending surface 121 coupled to the first bending surface 111, A connecting frame 140 which is laterally coupled to the second folding surface 121 and the other side 143 is bent vertically from the one side 141 and a connecting frame 140 which is coupled to the other side 143 of the connecting frame 140, And a colored steel plate 130 which forms a spacing space from the bending panel 110 and the second bending panel 120.

The top panel 20 and the side panel 10 may be implemented in the same structure as shown in FIG. 4 and below, and may be mounted on the top panel 20, depending on the position placed relative to the support structure 40, Or side panel 10, as shown in FIG. The components described below are described as being components of the side panel 10, but may be described as components of the top panel 20.

The first bending panel 110 forms a hollow portion S into which the workpiece m is drawn. In this case, the flat surface 113 of the first bending panel 110 can form a cavity. Referring to Fig. 5, a structure is shown in which the flat surfaces 113 and 123 of the top panel 20 and the side panel 10 form a cavity S, respectively.

The first folded surface 111 is formed by bending vertically on the side surface of the flat surface 113. The first folded surface 111 may be formed by bending along the rim of the flat surface 113 and may be formed on both side edges or all edges. The first folded surface 111 is formed by bending all the edges of the flat surface 113. In this case, the first folded surface 111 corresponds to the horizontal side where the top panel 20 is disposed, There may be a vertical side to which the bent surface 121 is coupled. Hereinafter, the first folded surface 111 will be described as a vertical side unless otherwise described, but the embodiment is not limited thereto.

The first folded surface 111 forms the supporting structure of the horizontal frame 11, the vertical frame 12 and the support frame 13 of the prior art. The first folded surface 111 forms a supporting structure in the drying chamber together with the connection frame 140 and the second folded surface 121 to be described later and is formed of a glass wool 150 (glass wool) A receiving portion C of a cavity which can be accommodated is formed with the flat surface 113.

The first folding surface 111 may be bent by bending the flat surface 113 of the first folding panel 110. The first folded surface 111 is formed by bending the edge of a flat sheet of steel sheet by a bending machine and bending perpendicularly to the flat surface 113.

Accordingly, since the rectangular hollow frame is separately cut to form a simple structure in which the vertical frame 12, the horizontal frame 11, and the support frame 13 are manufactured, and the support structure is not formed by individual welding, The productivity is improved.

The second bending panel 120 is provided with a flat surface 123 forming a cavity S as the first bending panel 110. And the second folded surface 121 is bent perpendicularly to the side surface of the flat surface 123. Since the second bending panel 120 is the same as the first bending panel 110, differences will be mainly described below.

The second bending panel 120 is disposed in parallel with the first bending panel 110. The second bending panel 120 forms a cavity S in parallel with the first bending panel 110. The flat surface 123 of the second bending panel 120 extends with the flat surface 113 of the first bending panel 110 to extend the hollow portion S.

The second bending face 121 is formed by bending perpendicularly to the side face of the flat face 123 of the second bending panel 120. The second folding surface 121 is the same as the first folding surface 111 described above, so the difference will be mainly described below.

The second folding surface 121 is disposed to be coupled to the first folding surface 111. In this case, the second folded surface 121 is joined to the vertical side of the first folded surface 111. The second folded surface 121 coupled to the first folded surface 111 together with the first folded surface 111 forms a support structure. Accordingly, the second folded surface 121 coupled to the first folded surface 111 forms a rigid support structure for the vertical direction.

The connection frame 140 is laterally coupled to the first bending panel 110 and the second bending panel 120. The connection frame 140 may be coupled to the first bending panel 110 and the second bending panel 120 in one or more longitudinal directions of the drying chamber and may extend laterally to form one or more And can be coupled to the side panel 10. 5, three connection frames 140 are coupled to one side panel 10, but the present invention is not limited thereto. The connection frame 140 supports the horizontal direction as in the case of the conventional horizontal frame 11 and functions to fix the first bending panel 110 and the second bending panel 120 together.

The connection frame 140 is laterally coupled to the first folded surface 111 and the second folded surface 121 as shown in FIG. According to one embodiment of the present invention, one side 141 of the connection frame 140 is welded to the first folded surface 111 and the second folded surface 121 to form a support structure for the lateral direction, The first bending panel 110 and the second bending panel 120 are firmly fixed.

In this case, when the connection frame 140 is welded to the first folding surface 111 and the second folding surface 121 and the connection frame 140 is one, there are three welds w, It is not necessary to join the support frame 13 and the horizontal frame 11 by welding a plurality of times, so that the productivity is increased and the contact point where heat transfer occurs is reduced, and the heat insulating performance is improved.

That is, in the conventional side panel 10, the heat on the side of the cavity portion S passes through the horizontal frame 11 and the vertical frame 12, passes through the plurality of support frames 13, Since the heat is cut by the horizontal frame 11, the vertical frame 12 and the support frame 13, the heat insulating performance is deteriorated due to a large number of heat transfer contacts. However, in the present invention, the heat transfer contact contacts the connection frame 140 and the first bent surface 111 and the welded portion w formed on the second bent surface 121, the heat transfer contact is reduced as compared with the prior art, and the heat insulating performance is improved.

The other side 143 of the connection frame 140 is vertically bent from one side 141 coupled to the first folding surface 111 and the second folding surface 121. [ The other side 143 of the connection frame 140 extends from one side 141 and then is vertically bent to form a coupling portion to which a color steel plate 130 to be described later is coupled. In this case, the connection frame 140 according to an embodiment of the present invention is formed in a cross-sectional shape of "a ".

The colored steel plate 130 is a color-treated steel plate, which is lightweight and forms the appearance of the drying chamber. The colored steel plate 130 is coupled to the other side 143 of the connection frame 140. The colored steel plate 130 may be bolted or screwed to the connection frame 140.

The colored steel plate 130 is coupled to the other side 143 of the connection frame 140 to form a space with the first bending panel 110 and the second bending panel 120. The spacing space forms a space for blocking heat transfer and forms a space filled with a glass wool (glass fiber) 150, which will be described later, together with the accommodating portion (C). FIG. 5 shows that the spacing space is filled with glass wool 150.

As described above, since the drying chamber of the main body drier of the present invention has a simple structure and a supporting structure is secured, productivity is improved since only a minimum of welding is performed without performing a large number of cutting and welding processes as in the prior art, Heat transfer is carried out, so that the heat transfer contact point compared to the prior art is reduced and the heat insulating performance is improved.

Depending on the powder coating process, the drying temperature in the cavity S of the drying chamber can be varied within a wide range. In one embodiment of the present invention, the drying temperature in the cavity S is between 150 ° C and 250 ° C.

When the drying chamber is carried out in the pretreatment drying of the object m, the drying temperature in the cavity S is 150 ° C. to 180 ° C., and in the post-treatment drying, the drying temperature in the cavity S is 180 ° C. To 250 < 0 > C. The drying chamber according to one embodiment of the present invention may be performed in any one of a pre-drying process and a post-process drying process.

The receiving portion C of the first bending panel 110 and the receiving portion C of the second bending panel 120 may be filled with a heat insulating material for blocking heat transmitted from the cavity S. [ Further, the spacing space may be filled with a heat insulating material. In one embodiment of the present invention, the accommodating portion C and the spacing space are filled with a glass wool 150, which is a heat insulating material.

The glass wool 150 is a heat insulating material made by drawing a molten glass into a fiber form, which can be used at a temperature of 300 ° C or lower, and is a heat insulating material having excellent fire resistance, heat insulating property, corrosion resistance, and water resistance. According to an embodiment of the present invention, when the drying temperature of the drying chamber is pre-treated at 150 ° C. to 250 ° C. or post-treated at a drying temperature of 150 ° C. to 250 ° C., the glass wool (150) So that the cavity S is filled with heat.

The second folded surface 121 is bonded to the first folded surface 111 by heat-resistant silicone. Heat-resistant silicone is a silicone resin that maintains its physical properties within a temperature range of 150 ° C to 350 ° C, and is a chemical resistant, flame-retardant material. The heat-resistant silicone stably maintains the engagement between the first folding surface 111 and the second folding surface 121 within the temperature range of the drying chamber, and the first folding surface 111 and the second folding surface 121, Are easily joined without welding or bolting to improve productivity.

As described above, when the components below the first bending panel 110 are embodied by the side panel 10, the first folding surface 111 and the second folding surface 121 are positioned in the vertical direction of the side panel 10 And a horizontal direction to form a supporting structure.

When the components below the first bending panel 110 are implemented by the top panel 20, they are arranged in the horizontal direction to form a structure for supporting the top panel 20 so as not to be bent in the vertical direction.

Hereinafter, the structure in which the upper panel 20 or the side panel 10 constituting the above-described components forms the drying chamber will be described.

First, a pair of side panels 10 are erected vertically in the support structure 40. The top panel 20 is then horizontally disposed on the side panel 10 with the support structure 40 to form the cavity S.

Here, the inner fixing frame 160 is disposed between the inside of the top panel 20 and the inside of the side panel 10. The inner fixing frame 160 shields the inner edge of the cavity S formed by the upper panel 20 and the side panel 10 and fixes the upper panel 20 and the side panel 10 by engaging them.

The inner fixed frame 160 is disposed in the transverse direction of the longitudinal direction of the drying chamber and can be disposed along the inner edge of the top panel 20 and the side panel 10, 123 of the side panel 10 and the flat surfaces 113, 123 of the side panel 10, respectively.

An external fixing frame 170 is disposed between the outside of the top panel 20 and the outside of the side panel 10. The external fixed frame 170 fixes the top panel 20 and the side panel 10, and forms an appearance. The outer fixed frame 170 shields the outer edges of the top panel 20 and the side panel 10 to block external air from entering the cavity S, thereby improving the heat insulation performance.

The external fixed frame 170 may be disposed along the outer edge of the upper panel 20 and the side panel 10 coupled to the transverse direction like the inner fixed frame 160, 130 and the colored steel plate 130 of the side panel 10.

6 is a view showing a part of the exploded view of the upper panel 20 or the side panel 10 of the drying chamber of the powder dryer dryer according to another embodiment of the present invention. In the following, description will be made with respect to components having differences, and components not described or shown will be replaced with the description and the contents of the components described above.

Referring to FIG. 6, the drying chamber of the powder dryer dryer according to another embodiment of the present invention includes a first bending panel 110, a second bending panel 110, And a fourth bent surface 325 formed on the second bending panel 120 and extending from the second bent surface 121 and bent perpendicularly to form the same plane as the third bent surface 315, And the connecting frame 340 is formed in a shape of a cross section so that one side 341 is laterally coupled to the third folding face 315 and the fourth folding face 325.

The first bending panel 110 has a third bent surface 315 formed thereon. The third bent surface 315 is formed by extending from the first bent surface 111. The third folding surface 315 is formed by bending vertically at the first folding surface 111 and may be bent by a bending machine. In this case, the third folding surface 315 may be formed only on both sides of the first folding surface 111 formed on all the edges of the flat surface 113. The third folding surface 315 is disposed horizontally with the flat surface 113 of the first bending panel 110.

And a fourth bent surface 325 is formed on the second bending panel 120. The fourth folded surface 325 is formed extending from the second folded surface 121. The fourth folded surface 325 may extend from the second folded surface 121 and may be bent perpendicularly and bent by a bending machine. In this case, the fourth folded surface 325 may be formed only on both sides of the second folded surface 121 formed on all the edges of the flat surface 123. The fourth folded surface 325 is disposed horizontally with the flat surface 123 of the second folding panel 120 and may form the same plane as the third folded surface 315.

The connecting frame 340 is disposed in the lateral direction, and the connecting frame 340 is formed in a cross-sectional shape of "C ". In this case, one side 341 of the connection frame 340 is coupled to the third folding surface 315 and the fourth folding surface 325. One side 341 of the connection frame 340 is joined on the same plane formed by the third folding surface 315 and the fourth folding surface 325.

One side 341 of the connection frame 340 may be bolted to the third folded surface 315 and the fourth folded surface 325. The other side 343 of the connection frame 140 may be bent twice from the one side 341 and the colored steel plate 130 may be coupled to the final folded surface. In addition, one panel to which the colored steel plate 130 is coupled may be implemented with the top panel 20 or the side panel 10 as shown in Fig. 4 to constitute a drying chamber.

The third folded surface 315 and the fourth folded surface 325 are formed to extend from the first folded surface 111 and the second folded surface 121 respectively and the cross section of the connecting frame 140 is formed into a " And one side 341 is bolted to the same plane formed by the third bent surface 315 and the fourth bent surface 325 so that the bolt B1 can be easily coupled with the bolt while securing the supporting structure with a simple structure So that the construction is facilitated, and the productivity is increased.

7 and 8 are views showing a heat-resistant frame 430 and a heat-resistant frame seat of a drying chamber of a dryer for powder powder coating according to another embodiment of the present invention. In the following, description will be made with respect to components having differences, and components not described or shown will be replaced with the description and the contents of the components described above.

7 and 8, the drying chamber of the dryer for powder powder coating according to another embodiment of the present invention includes a first bending panel 110 and a second bending panel 110, The first bending panel 120 is formed with a concave surface between the flat surface 123 and the second bending surface 121 to form a first seating part 417 formed with the first seating part 417 And a heat-resistant frame 430 which is coupled to the heat-resistant frame seating part and which insulates the first and second curved surfaces 111 and 121 from each other, and a second seat part 427 that forms the heat- do.

A first seating portion 417 is formed on the first bending panel 110. The first seating portion 417 is recessed between the flat surface 113 of the first bending panel 110 and the first folding surface 111. The first seating portion 417 is formed by bending the flat surface 113 at one end or both sides of the flat surface 113.

The second bending panel 120 is formed with a second seating portion 427. The second seating portion 427 is recessed between the flat surface 123 and the second folding surface 121 of the second bending panel 120. The second seating portion 427 is formed by bending the flat surface 123 at one end or both sides of the flat surface 113. The second seating portion 427 forms a heat-resistant frame seating portion on which the heat-resistant frame 430 is seated together with the first seating portion 417.

When the first bending panel 110 and the second bending panel 120 are arranged side by side, the first bending face 111 and the second bending face 121 are disposed opposite to each other. In this case, as described above, the first seating portion 417 and the second seating portion 427 form a heat-resistant frame seating portion on which the heat-resistant frame 430 is seated.

The heat-resistant frame 430 is seated and coupled to the heat-resistant frame seat. The heat resistant frame 430 insulates between the first bent surface 111 and the second bent surface 121.

Depending on the environment in which the drying chamber is performed, the drying temperature is instantaneously performed at 350 DEG C or higher, which is higher than one embodiment of the present invention, to cause deformation of the heat-resistant silicone, It may be necessary to reinforce the bonding force between the base plate 121 and the base plate 121.

That is, if the drying temperature is higher than the heat-resistant limit temperature of 350 ° C. of the heat-resistant silicone bonded between the first folded surface 111 and the second folded surface 121, the heat-resistant silicone is deformed, Therefore, it is necessary to reinforce heat resistance and maintain the bonding force.

At this time, the heat-resistant frame 430 having heat resistance at 350 ° C or more maintains heat insulation between the first folding surface 111 and the second folding surface 121, and the first folding surface 111 and the second folding surface 121 ). ≪ / RTI >

The heat-resistant frame 430 is formed with a "T" -shaped cross section. The heat resistant frame 430 may include a flange portion 431 disposed on the cavity portion S side and a protrusion portion 433 protruding perpendicularly to the flange portion 431. [

The flange portion 431 of the heat-resistant frame 430 is disposed on the side of the cavity portion S. The flange portion 431 of the heat-resistant frame 430 is seated on the heat-resistant frame seat portion and may be disposed on the flat surfaces 113 and 123 side.

The protruding portion 433 of the heat-resistant frame 430 is disposed between the first folding surface 111 and the second folding surface 121. The protruding portion 433 of the heat resistant frame 430 is disposed between the first curved surface 111 and the second curved surface 121 so that the first curved surface 111 and the second curved surface 121 are not deformed at a high temperature of 350 ° C or more, ) And the second bent surface 121 are insulated.

A heat resistant silicon layer 435 may be provided at the end of the protrusion 433 of the heat resistant frame 430. The heat-resistant silicon constituting the heat-resistant silicon layer 435 may be embodied by the heat-resisting silicon described above.

In this case, the temperature at the end of the projecting portion 433 forms a temperature lower than 350 占 폚 at the cavity portion S side. That is, the heat is transmitted to the heat-resistant frame 430 at a temperature of 350 ° C or higher instantaneously on the side of the cavity S, but since the heat-resistant frame 430 transmits heat again to the first bending panel 110, A temperature lower than 350 deg. C is formed at the end of the protrusion 433 of the frame 430. [ Therefore, the heat-resistant silicon layer 435 provided at the end of the protrusion 433 is not deformed and maintains the heat resistance, so that the heat insulation performance is maintained.

The first folding surface 111, the second folding surface 121 and the heat-resisting frame 430 may be integrally coupled with each other through the bolts B2. The heat resistant frame 430 is integrally joined to the protruding portion 433 and the first bent surface 111 and the second bent surface 121 through a bolt B2 so as to facilitate construction, The heat resistant silicon layer 435 provided at the end of the heat resistant frame 430 seals between the first folded surface 111 and the heat resistant frame 430 and between the second folded surface 121 and the heat resistant frame 430, The heat insulating performance can be maintained even in a high temperature environment.

Those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

The scope of the present invention is defined by the appended claims rather than the foregoing description, and all changes or modifications derived from the meaning and scope of the claims and equivalents thereof are included in the scope of the present invention Should be interpreted.

1: drying chamber 10: side panel
20: upper panel 30: hot air generator

Claims (10)

An upper panel defining an upper surface of a cavity into which the object is introduced; And
A side panel disposed below the upper panel to form both sides of the cavity; / RTI >
Wherein one of the upper panel and the side panel comprises:
A first bending panel formed with the cavity portion and having a first bent surface bent perpendicularly to a side surface of the flat surface to form a receiving portion;
A second bending panel which forms the cavity and has a receiving part formed by bending perpendicularly to a side surface of the flat surface and a second bending surface arranged in parallel with the first bending panel and coupled to the first bending surface;
A connecting frame in which one side is laterally coupled to the first folding surface and the second folding surface and the other side is bent perpendicularly from the one side; And
And a color steel plate coupled to the other side of the connection frame to form a space between the first bending panel and the second bending panel,
Wherein the first bending panel is formed with a first seating portion formed by being recessed between the flat surface and the first bent surface, and the second bending panel is recessed between the flat surface and the second bent surface, A heat-resistant frame for heat insulation between the first bent surface and the second bent surface is coupled to the heat-resistant frame seating part,
Wherein the heat resistant frame includes a flange portion disposed on the cavity portion side and a protrusion portion protruding perpendicularly to the flange portion, wherein a drying temperature in the cavity portion is 350 DEG C or higher, and at the end of the protrusion portion, Drying chamber of drying machine for painting.
The method according to claim 1,
Wherein the first bent surface is bent by bending a flat surface of the first bending panel.
The method according to claim 1,
Wherein the connection frame is formed in a "
Wherein one side of the connecting frame is welded to the first folded surface and the second folded surface.
The method according to claim 1,
Wherein the accommodating portion and the spacing space are filled with glass wool.
The method according to claim 1,
And an inner fixing frame for fixing the upper panel and the side panel is provided between the inside of the upper panel and the inside of the side panel.
6. The method of claim 5,
And an outer fixing frame for fixing the upper panel and the side panel and blocking external air from entering the cavity, is provided between the outer side of the upper panel and the outer side of the side panel, chamber.
The method according to claim 1,
Wherein the first bending panel is formed with a third bent surface extending from the first bent surface and bent perpendicularly,
Wherein the second bending panel is formed with a fourth folded surface extending from the second folded surface and bent perpendicularly to form the same plane as the third folded surface,
Wherein the connecting frame is formed in a "C" shape in cross section, and one side is bolted to the third bent surface and the fourth bent surface.
delete delete The method according to claim 1,
Wherein the first bent surface, the second bent surface, and the heat resistant frame are bolted together and integrally joined together.

Images