KR100658285B1 - A manufacturing method and manufacturing apparatus for an aluminum architectural panel - Google Patents

Abstract

The present invention continuously connects the structural aluminum panel having good bearing capacity against the load by adhering the cores so that the direction of the valleys and the mountains has a certain angle with respect to the longitudinal direction of the upper and lower plates between the upper and lower plates spaced in parallel at regular intervals. The present invention relates to a manufacturing method and apparatus for manufacturing the same, wherein the core material is continuously fed and the wavy peaks and valleys are continuously formed at an angle with respect to the longitudinal direction of the core material at an angle, and adhered between the upper plate and the lower plate with an adhesive film. A method for producing a structural aluminum panel which continuously manufactures a structural aluminum panel; The present invention relates to a device for manufacturing a structural aluminum panel including a pair of core forming rollers spirally formed at a predetermined interval on a circumferential surface and spirally formed at a predetermined interval, and an oven for heating the formed core to a predetermined temperature.

According to the present invention, while continuously feeding the core material wound with a coil to form a wave and the valleys and valleys at an angle with respect to the longitudinal direction of the core material, heating to 130 ~ 170 ℃ while conveying the molded core, Structural aluminum panels in the step of unifying the adhesive film, the upper plate and the adhesive film and the lower plate wound by coils on the upper and lower surfaces of the core to be transported, and then integrating the laminate by pressing and pressing at a temperature of 130 to 170 ° C. A method of continuously preparing the compound; The ridges protruding at a certain height on the circumferential surface are spirally formed at regular intervals, and a pair of core forming rollers installed side by side at regular intervals, and the hills and valleys are inclined at an angle with respect to the longitudinal direction while passing between the core forming rollers. An oven for heating the formed core to 130 to 170 ° C; The adhesive film and the upper plate are rolled up to be pressed onto the upper surface of the core to be heated and transported, and the adhesive film and the lower plate are rolled up to be laminated and pressed to the lower surface of the core to be heated and transported, respectively. There is provided an apparatus for manufacturing a structural aluminum panel including a pressing roller.

Structural aluminum panels, cores, core forming rollers, pressing rollers, spiral protrusions

Description

A manufacturing method and manufacturing apparatus for an aluminum architectural panel

1 is a partially cutaway perspective view of a structural aluminum panel

Figure 2 is a schematic perspective view of the inventor manufacturing apparatus

Figure 3 is a schematic configuration diagram of the present inventors manufacturing apparatus

Figure 4 is a state diagram of the core forming roller of the present invention

5 is a detailed cross-sectional view of portion “A” of FIG. 3.

※ Explanation of codes for main parts of drawing

1: top plate 2: bottom plate

3: core 4: adhesive film

5: core material 6a, 6b: core forming roller

7: doljo 8: tension roller

9: oven 10a, 10b: pressing roller

100: aluminum panel

The present invention continuously connects the structural aluminum panel having good bearing capacity against the load by adhering the cores so that the direction of the valleys and the mountains has a certain angle with respect to the longitudinal direction of the upper and lower plates between the upper and lower plates spaced in parallel at regular intervals. The present invention relates to a manufacturing method and apparatus for manufacturing the same, wherein the core material is continuously fed and the wavy peaks and valleys are continuously formed at an angle with respect to the longitudinal direction of the core material at an angle, and adhered between the upper plate and the lower plate with an adhesive film. A method for producing a structural aluminum panel which continuously manufactures a structural aluminum panel; The present invention relates to a device for manufacturing a structural aluminum panel including a pair of core forming rollers spirally formed at a predetermined interval on a circumferential surface and spirally formed at a predetermined interval, and an oven for heating the formed core to a predetermined temperature.

Aluminum panels are used as interior and exterior materials of various structures, such as a single plate of a certain thickness, a structure in which a plurality of thin plates are laminated, and a structure having a rigid core as a structural panel by inserting a core having a predetermined shape between two upper and lower plates. Have

In particular, in order to use as a structural panel, there must be a supporting force for vertical load, the conventional structure for this is manufactured by inserting the core and the honeycomb-shaped core or the core formed between the upper and lower plates.

However, in the case of the core formed with the peaks and valleys, the peaks and valleys are formed in the longitudinal direction of the upper and lower plates, and when the load is applied in the direction perpendicular to the formation direction of the peaks and valleys, it has structural rigidity. If the load acts in the same direction as this, there is a problem that the bending occurs in the hill and valley. This is mainly due to the problem that the panel is formed long in a rectangular shape, and the peaks and valleys are easily bent in the longitudinal direction or the vertical direction in the longitudinal direction. And such a panel was not manufactured continuously, but was manufactured separately. That is, a method of attaching a preformed core between two plate members having a predetermined width has a problem of low productivity.

In order to overcome the above problems of structural rigidity, the core is bonded so that the direction of the valley and the peak between the upper and lower plates spaced in parallel at regular intervals to have a predetermined angle with respect to the longitudinal direction of the upper and lower plates, Structural aluminum panels with good bearing capacity have been invented, and there is a need for a continuous manufacture of a panel and an apparatus having this advantage.

Honeycomb cores between two plates are called honeycomb panels, which have the advantage of supporting loads in any direction, but the production of honeycomb cores is more cost-effective than the production of cores with different waveforms. There are disadvantages in time. In this case, too, a panel cannot be manufactured while continuously manufacturing honeycomb, and a decrease in productivity is a problem.

An object of the present invention is that the core and the valley between the upper plate and the lower plate have a constant angle with respect to the longitudinal direction of the upper plate and the lower plate while the core is inserted and attached to withstand the load in the longitudinal direction or the vertical direction of the panel. In order to continuously manufacture structural aluminum panels with structural features, the core material is continuously fed and the wavy peaks and valleys are continuously formed at an angle with respect to the length direction of the core material while being continuously inclined at an angle with the adhesive film between the upper plate and the lower plate. To provide a method for continuously producing a structural aluminum panel bonded to the; The present invention provides a manufacturing apparatus of a structural aluminum panel including a pair of core forming rollers spirally formed at regular intervals at a predetermined height on a circumferential surface thereof, and an oven for heating the formed core to a predetermined temperature.

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

First, the structural aluminum panel 100 of the present invention has an upper plate 1 and a lower plate 2 of aluminum spaced in parallel at regular intervals, a wavy core 3 alternately formed with an acid and a valley, and an upper portion of the core 3. Interposed between the surface and the upper plate 1, and between the lower surface and the lower plate 2 of the core 3, the structure consisting of an adhesive film 4 bonded to the upper plate 1 and the lower plate 2 The peaks and valleys of the core 3 are each formed at an angle of 10 to 45 degrees with respect to the longitudinal direction of the upper plate 1 and the lower plate 2. That is, the structural aluminum panel 100 of the structural aluminum aluminum panel 100 is formed in a direction perpendicular to the longitudinal direction or perpendicular to the longitudinal direction, the angle of formation of the peak and valley to maintain the rigidity with respect to the load to be.

The upper plate (1) and the lower plate (2) is a plate of aluminum, the part exposed to the surface of the interior and exterior materials is used for color coating and printing, the upper plate (1) and the lower plate (2) may be implemented in a different thickness. . In addition, the adhesive film 4 serves as a hot melt film to firmly attach the upper plate 1 or the lower plate 2 and the core 3 positioned on the upper surface thereof.

Such a structural aluminum panel 100 is shown in FIG. 1 in a perspective view and in FIG. 5 in cross section.

Therefore, the aluminum panel 100 having the above structure is not only widely used as interior and exterior materials of construction, but also variously used as structural materials such as shelves or tables. When used for interior and exterior materials and tables, the rigidity of the load is required, the present invention is characterized by a method and apparatus for continuously manufacturing the above-described aluminum panel 100 with excellent rigidity against such a load very easily.

That is, the manufacturing method of the aluminum panel 100 according to the present invention comprises the steps of continuously feeding the coiled core material (5) to form a predetermined angle with respect to the longitudinal direction of the core material (5) of the wavy acid and valleys ; Heating to 130 to 170 ° C. while transferring the formed core 3; Unwinding the adhesive film 4 and the upper plate 1 and the adhesive film 4 and the lower plate 2 wound by coils on the upper and lower surfaces of the transferred core 3, respectively, in turn, and laminating them as described above. Integrating by pressing at a temperature of 170 ℃; Attaching a protective tape to the upper and lower surfaces of the integrated aluminum panel 100, cutting in a predetermined unit; to be continuously manufactured.

For the continuous production as described above, the upper plate (1) and lower plate (2) of the aluminum, two adhesive films (4), the core material (5) is used in the form of a coil. Since the adhesive film 4 and the upper plate 1 are sequentially stacked on the upper surface of the core 3, and the adhesive film 4 and the lower plate 2 are sequentially laminated on the lower surface of the core 3, FIG. 2. And as shown in Figure 3 the adhesive film 4 is installed to be located inside.

According to the method according to the invention, the core 3 must be manufactured continuously, and the apparatus for continuously manufacturing the core 3 constitutes a part of the apparatus for continuously manufacturing the aluminum panel 100.

In the manufacture of the core 3, as shown in FIGS. 2 and 3, a coil wound around the core material 5 is installed, and the core 3 is manufactured while releasing the core material 5 from the coil. (5) is an oblique shape of the hill and the valley while passing through a pair of core forming roller (6a) (6b).

That is, the core forming rollers (6a) (6b) as shown in Figure 4, the protrusions (7) protruding at a certain height on the circumferential surface is formed in a spiral at a predetermined interval, the two are arranged side by side at a predetermined interval Has Therefore, the core material 5 inserted between the core forming rollers 6a and 6b is formed of the spiral protrusion 7 formed on the core forming roller 6a and the protrusion of the mating mating core forming roller 6b. A groove and a valley are formed by joining the groove formed between the 7) and the projection 7. Since the protrusions 7 are formed in the core forming rollers 6a and 6b in a helical manner, the hills and valleys are formed at a predetermined angle with respect to the advancing direction of the core material 5, that is, the longitudinal direction.

The core material 5 and the molded core 3 should be conveyed with a constant tension. As such, the tension roller 8 shown in FIGS. 2 and 3 is installed as a structure for tensioning the core material 5 and the like. . The tension roller 8 is movable in a certain range so that the core material 5 or the core 3 is adjusted to maintain the appropriate tension.

As described above, the present invention has a great feature in the continuous molding of the core 3, which is continuously formed using the core material 5 wound in the form of a coil. The continuously formed core 3 is heated to a constant temperature.

The heating of the core 3 is carried out continuously through the oven 9 maintaining the temperature of 130 ~ 170 ℃, the adhesive film 4, the upper plate 1 and the lower plate 2 in the subsequent manufacturing step In order to integrate them.

The oven 9 is a general structure of the oven 9, such as an inlet and an outlet through which the core 3 enters and exits, a heater for heating is provided, and the temperature can be controlled.

The adhesive film 4, the upper plate 1 and the lower plate 2 are adhered to the upper and lower surfaces of the heated core 3 as described above, in which case the adhesive film 4 and The upper plate 1 and the lower plate 2 are heated to 130 to 170 ° C.

The heating of the adhesive film 4 and the upper plate 1 and the lower plate 2 is characterized by having a structure that is naturally made by heating the pressing roller (10a) (10b) for adhesion. That is, since the adhesive film 4 is used on the upper surface and the lower surface of the core 3, the upper plate 1 and the portion in contact with the pressing rollers 10a and 10b as shown in Figs. The lower plate 2 is positioned, and the adhesive film 4 is positioned outside the upper plate 1 and the lower plate 2 in contact with the pressing rollers 10a and 10b, respectively. The upper plate 1, the lower plate 2, and the adhesive film 4 are all wound and installed in a coil shape to enable continuous manufacture, and have a structure of continuously manufacturing the aluminum panel 100 while being unwound.

As described above, the adhesive film 4, the upper plate 1, and the core laminated on the upper surface of the core 3 and the core 3 interposed therebetween by a pair of upper and lower compression rollers 10a and 10b. The adhesive film 4 and the lower plate 2, which are laminated on the lower surface of 3) in turn, are compressed and transported at a constant pressure by the pressing rollers 10a and 10b heated at a temperature of 130 to 170 ° C. 100) is produced continuously.

And the upper plate (1) and the lower plate (2) of the integrally formed aluminum panel 100 is a color coating or pattern is printed, so that a protective tape is attached to protect it. In addition, the present invention is produced long by the feature of continuously manufacturing the aluminum panel 100, in the last step is cut in various sizes and length units according to the purpose of use.

The apparatus for attaching the above-mentioned protective tape or the apparatus for cutting the aluminum panel 100 can be selected and used in various ways as those having a general structure.

The cross-section of the aluminum panel 100 continuously manufactured as described above is illustrated in FIG. 5, and the aluminum panel 100 itself may serve as a structure, and thus may be widely applied as an interior and exterior material and a member of the structure.

The aluminum core 3 manufactured as described above is a continuous wavy pattern steel formed by alternating peaks and valleys, and the peaks and valleys are formed at an angle with respect to the longitudinal direction of the aluminum panel 100. On the other hand, in the conventional case, the hill and the valley were perpendicular to the longitudinal direction and the longitudinal direction of the aluminum panel 100.

The aluminum panel 100, which is installed by interior or exterior materials, is cut to a specific unit length and is installed to support both side portions and both ends thereof. Therefore, when the load is applied to the aluminum panel 100, the vertical load acts on both sides or both ends in the longitudinal direction as the supporting point.

When the load is applied in this way, in the conventional case, the peaks and valleys are formed only in the longitudinal direction or the vertical direction of the aluminum panel 100, which causes a problem that the peaks and valleys are bent by the load. However, the core 3 continuously manufactured according to the present invention has a peak and a valley formed at an angle of 10 to 45 degrees with respect to the longitudinal direction of the aluminum panel 100, such that the bending in the longitudinal direction or the bending in the vertical direction with respect to the longitudinal direction. Stiffness to anything.

Thus, in the present invention, the interior and exterior materials of the building have a constant angle with respect to the longitudinal direction of the upper plate 1 and the lower plate 2 of the peaks and valleys of the core 3 adhered between the upper plate 1 and the lower plate 2. Of course, it is possible to continuously manufacture a structural aluminum panel 100 that can be variously applied as a member of a variety of structures, the aluminum panel 100, the weak stiffness which is a disadvantage of the structural aluminum panel 100 with the advantage of lightness is complemented Manufacture is maximized, and as a structural member having light weight and rigidity, it is possible to increase productivity corresponding to its utilization.

Claims (2)

Continuously feeding the coiled core material 5 to form a wave-shaped acid and a valley at an angle with respect to the longitudinal direction of the core material; Heating to 130 to 170 ° C. while transferring the formed core 3; Unwinding the adhesive film 4 and the upper plate 1 and the adhesive film 4 and the lower plate 2 wound by coils on the upper and lower surfaces of the transferred core 3, respectively, in turn, and laminating them as described above. Integrating by pressing at a temperature of 170 ° C to integrate; Method for producing a structural aluminum panel comprising a. A pair of core-forming rollers 6a and 6b which are formed in a spiral shape at regular intervals on the circumferential surface at a predetermined interval and are arranged side by side at regular intervals; An oven (9) for heating the core (3) formed at a predetermined angle with respect to the longitudinal direction while passing between the core forming rollers (6a) and (6b) to 130 to 170 ° C; The adhesive film 4 and the upper plate 1 are pressed onto the upper surface of the core 3 which is wound and transported in a stack, and the lower surface of the core 3 which is wound and transported to the adhesive film 4 and the lower plate 2 in a stack. Compressed to, a pair of pressing rollers (10a, 10b) each heated to 130 ~ 170 ℃; manufacturing apparatus of a structural aluminum panel comprising a.

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