KR101598437B1 - Door manufacuring method for sandwich panel - Google Patents

Abstract

The present invention relates to a method for manufacturing a door for a sandwich panel comprising: a step of removing a first panel outer plate among the first panel outer plate and a second panel outer plate coupled to each side of panel Styrofoam of a sandwich panel; a step of cutting the sandwich panel where the first panel outer plate is removed to correspond to the horizontal length and vertical height of the door; a step of cutting the cut panel Styrofoam of the sandwich panel using a hot wire cutter to a thickness of door Styrofoam forming the door; and a step of attaching a first door outer plate to a cut surface of the door Styrofoam.

Description

{DOOR MANUFACURING METHOD FOR SANDWICH PANEL}

The present invention relates to a method for manufacturing a door for a sandwich panel, and more particularly, to a method for manufacturing a door for a sandwich panel in which a door can be easily manufactured using a conventional sandwich panel.

Generally, a sandwich panel is a panel in which a filler having a sound insulating property and an insulating property is placed between a top plate and a bottom plate made of metal. A filler such as honeycomb or glass wool is usually attached between the upper and lower plates, or a foamed synthetic resin such as styrofoam or urethane is filled to form a single body.

Sandwich panels are used as exterior walls for factories, warehouses, and prefabricated buildings. When constructing a prefabricated building using sandwich panels, doors for user access as well as exterior walls are manufactured using sandwich panels. In this regard, the structure of the sandwich panel door has been disclosed in Korean Patent Laid-Open No. 10-2011-0003002 entitled "Sandwich panel door ".

Here, the sandwich panel is normally specified. For example, the thickness of a sandwich panel is 50 mm, 75 mm, 100 mm, 125 mm, 150 mm, and the like. The doors joined to these sandwich panels are thinner than the sandwich panels. Accordingly, in order to manufacture the conventional sandwich panel, the thickness of the styrofoam received therein must be customized separately from the sandwich panel, or the styrofoam for panel inserted into the sandwich panel must be cut and used manually.

However, since there is not much demand for doors, there is a problem in that it is expensive to separately order styrofoam for doors. In addition, there is a disadvantage in that it is not easy to cut a styrofoam for a panel by hand and process it into a styrofoam for a door because the processing time is long and the cutting surface is not smooth, so that it is not easy to adhere a metal plate to the surface of the styrofoam for a door.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a door manufacturing method for a sandwich panel which can easily manufacture a door by using a sandwich panel used as an outer wall.

It is another object of the present invention to provide a method for manufacturing a door for a sandwich panel, which can be manufactured in a manner compatible with doors of various thickness sandwich panels.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The object of the present invention can be achieved by a door manufacturing method for a sandwich panel rotatably coupled to a sandwich panel. A method for manufacturing a door panel for a sandwich panel according to the present invention comprises: peeling off a first panel outer panel and a second panel outer panel joined to both sides of a panel styrofoam of the sandwich panel; Cutting the sandwich panel with the first panel sheathing to fit the width and height of the door; Cutting the panel styrofoam of the cut sandwich panel to a thickness of the door styrofoam forming the door by using a hot line cutter; And adhering the first door outer plate to the cut surface of the door styrofoam.

According to an embodiment of the present invention, the first panel outer plate may be formed with irregularities on its surface, and the outer surface of the first door plate may be flat.

According to one embodiment, the hot wire cutter includes: a support table on which the styrofoam panel is horizontally moved; A heating line disposed perpendicularly to the moving direction of the panel styrofoam on the support table and spaced apart from the upper surface of the support table by a thickness of the door styrofoam; And a heat ray controller for applying power to the heat ray to heat the heat ray and cut the panel styrofoam.

According to one embodiment, the hot wire cutter may further include a height adjusting unit for adjusting a height of the hot wire to the support table.

The method for manufacturing a door for a sandwich panel according to the present invention uses a door styrofoam, which is relatively difficult to manufacture because of relatively low demand, by processing a panel styrofoam. At this time, a heat ray cutter is used to process the thickness of the panel styrofoam to the thickness of the door styrofoam.

As a result, a smooth cut surface can be obtained and the second door outer plate can be easily bonded. Therefore, the door for the sandwich panel can be easily manufactured, and the manufacturing cost can also be reduced.

Further, it is possible to directly manufacture a door for a sandwich panel of various thicknesses.

1 is a perspective view showing the construction of a sandwich panel with a door for a sandwich panel according to the present invention,
FIG. 2 is a flow chart showing a manufacturing process of a door for a sandwich panel according to the present invention,
FIG. 3 and FIG. 4 illustrate a process for manufacturing a door for a sandwich panel according to the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 is a perspective view showing a configuration of a sandwich panel assembly 1 in which a door 200 manufactured by the method for manufacturing a door panel for a sandwich panel according to the present invention is coupled to a sandwich panel 100.

As shown, the sandwich panel assembly 1 comprises a door 200 pivotally coupled to the sandwich panel 100. The sandwich panel 100 is formed as an outer wall of the building and the door 200 is pivotally coupled to the opening 140 of the sandwich panel 100 for the user's entry and exit.

The sandwich panel 100 is formed with a panel styrofoam 110 between the first panel outer panel 120 and the second panel outer panel 130. At this time, the first panel outer panel 120 and the second panel outer panel 130 are formed of a metal material such as aluminum or stainless steel. The first panel outer panel 120 and the second panel outer panel 130 are provided with projections and depressions protruding and recessed outward as shown in the figure for reinforcing the strength of the sandwich panel 100.

The first panel outer panel 120 is vertically uneven and the second panel outer panel 130 is vertically uneven.

The panel styrofoam 110 is inserted between the first panel outer panel 120 and the second panel outer panel 130 to perform heat insulation and sound insulation of the building. The thickness d1 of the panel styrofoam 110 is standardized, mass produced and sold in accordance with this standard.

The door 200 is formed to have a size corresponding to the opening 140 of the sandwich panel 100. The door 200 includes a door styrofoam 210 and a first door outer plate 220 and a second door outer plate 230 coupled to both sides of the door styrofoam 210.

The door 200 is formed to be thinner than the sandwich panel 100 so that the door 200 is easily rotated on the sandwich panel 100. The thickness d2 of the door styrofoam 210 is formed to be thinner than the thickness dl of the panel styrofoam 110. [

The first door outer plate 220 is disposed in a direction toward the outside of the building. For this purpose, the first door outer panel 220 is formed in a flat plate shape having no unevenness to be separated from the first panel outer panel 120. The second door outer plate 230 is disposed in a direction toward the inside of the building and is formed to have the same concavo-convex pattern as the second panel outer plate 130.

The door 200 of the present invention having such a configuration is manufactured by processing the sandwich panel 100 forming the outer wall. FIG. 2 is a flowchart illustrating a manufacturing process of the door 200, and FIGS. 3 and 4 illustrate a manufacturing process of the door 200. Referring to FIG.

The first panel outer panel 120 attached to the surface of the panel styrofoam 110 forming the sandwich panel 100 is removed in order to manufacture the door 200 as shown in FIGS. 2 and 3 (S110). The panel styrofoam 110 to which the second panel outer panel 130 is attached is cut in accordance with the size of the door 200 (S120).

1, the sandwich panel 100 is formed to have a first height h1 and a first width w1, and the door 200 has a second height h2 and a second width w2 ). The operator cuts the vertical length by the difference between the first height h1 and the second height h2 using a cutter and cuts the width by the difference between the first width w1 and the second width w2 .

3, the panel styrofoam 110 is cut into a thickness d2 of the door styrofoam 210 by inserting the panel styrofoam 110 cut horizontally and vertically to the size of the door 200 into the hot- (S130).

At this time, the surface of the panel styrofoam 110 from which the first panel outer panel 120 is torn is not smooth and uneven. Styrofoam is, by its nature, subjected to pressure when cutting with a sharp cutting edge such as a knife, so that the surface is cut smoothly and unevenly. When the first door outer plate 220 is bonded to the rugged cut surface, the first door outer plate 220 is not properly adhered.

Accordingly, in the sandwich panel door manufacturing method according to the present invention, the panel styrofoam 110 is cut using the hot wire cutter 300.

 The heat ray cutter 300 includes a support table 380 on which the panel styrofoam 110 is moved as shown in FIG. 3, a heat line 310 coupled to the support table 380, And a heat ray control unit 370 for outputting a voltage to the heat ray 310 to heat the panel styrofoam 110 to heat.

The hot wire 310 is provided with an alloy resistance wire having a large electrical resistance such as a normal nichrome wire. When a voltage is applied by the heat line controller 370, the heat line 310 generates heat by resistance, and smoothly cuts the panel styrofoam 110 to be moved. In addition, a resistance wire such as tungsten or platinum may be used as the heat ray 310, or a resistance heating body molded and sintered using silicide, molybdenum, silicon carbide or the like as a main component may be used.

The heating wire control unit 370 controls the heating wire 310 to output a voltage in a temperature range input by the user. The heating wire control unit 370 includes a power supply unit 360 coupled to an outlet (not shown) and supplied with power, a temperature input unit 350 for receiving a temperature for cutting the panel styrofoam 110 from a user, A voltage regulator 340 for regulating the voltage supplied from the temperature regulator 360 to a range capable of generating the heat line 310 in the temperature range input from the temperature input unit 350, And a voltage output unit 330 for outputting the voltage to the heating line 310.

The heating wire support block 320 supporting the heating wire 310 is electrically connected to the voltage output part 330 to supply the voltage to the heating wire 310. At this time, the heat ray 310 is wound around the height adjusting portion 321 a plurality of times. The height adjustment portion 321 adjusts the height of the support table 380 from the bottom surface. The height adjusting portion 321 may be vertically movable by screwing.

The height adjusting portion 321 is disposed at a height that is capable of cutting the difference between the thickness d1 of the panel styrofoam 110 and the thickness d2 of the door styrofoam 210. [ For example, when the thickness of the panel styrofoam 110 is 50 mm and the thickness of the door styrofoam 210 is 40 mm, the heat ray 310 is disposed at a height of 40 mm from the support table 380.

In order to cut the door styrofoam 210 of 40 mm, the temperature input unit 350 sets the temperature to a total of 42 ° C to 48 ° C. The heat line 310 is set in the range of 0.4 mm to 1 mm. When the temperature exceeds 48 ° C, the cut surface of the panel styrofoam 210 is melted by heat. When the temperature is lower than 42 ° C, the panel styrofoam 210 is not cut smoothly, resulting in a non-smooth cut surface.

If the thickness of the heat ray 310 is greater than 1 mm, the cutting time may be increased, but the cut surface may be overheated. If the thickness of the heat ray 310 is less than 0.4 mm, the cutting time may be excessively long.

The panel styrofoam 110 is moved along the support table 380 and brought into contact with the heating wire 310 so that the upper end of the panel styrofoam 110 is cut and the door styrofoam 210 is left.

At this time, the cut surface B of the cut door styrofoam 210 is smoothly cut by the heat line 310. On the other hand, the second panel outer plate 130 remains attached to the rear surface of the door styrofoam 210. The second panel outer plate 130 functions as the second door outer plate 230.

That is, since the second door outer plate 230 is reused without being attached to the cut door styrofoam 210, the process of attaching the second door outer plate 230 can be omitted.

The first door outer plate 220 is attached to the cut surface B of the door styrofoam 210 cut at the hot wire cutter 300 as shown in FIG. 4 (S140). The first door outer plate 220 is provided as a flat flat plate having no concavo-convex shape.

The thus manufactured door 200 is rotatably coupled to the opening 140 of the sandwich panel 100 by using a hinge (not shown).

As described above, the method for manufacturing a door panel for a sandwich panel according to the present invention uses door styrofoam, which is relatively difficult to manufacture because of relatively low demand, by processing a panel styrofoam. At this time, a heat ray cutter is used to process the thickness of the panel styrofoam to the thickness of the door styrofoam.

As a result, a smooth cut surface can be obtained and the second door outer plate can be easily bonded. Therefore, the door for the sandwich panel can be easily manufactured, and the manufacturing cost can also be reduced.

Further, it is possible to directly manufacture a door for a sandwich panel of various thicknesses.

The embodiments of the method for manufacturing a door panel for a sandwich panel of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: sandwich panel assembly 100: sandwich panel
110: panel styrofoam 120: first panel outer panel
130: second panel outer plate 140: opening
200: door 210: door styrofoam
220: first door outer plate 230: second door outer plate
300: Hot wire cutter 310: Hot wire
320: hot wire supporting block 321: height adjusting portion
330: voltage output section 340: voltage regulating section
350: temperature input unit 360: power supply unit
370: Heat line control unit 380: Support table

Claims (4)

A method for manufacturing a door for a sandwich panel, the method being rotatably coupled to a sandwich panel,
Removing the first panel outer panel from the first panel outer panel and the second panel outer panel joined to both sides of the panel styrofoam of the sandwich panel;
Cutting the sandwich panel with the first panel sheathing to fit the width and height of the door;
Cutting the panel styrofoam of the cut sandwich panel to a thickness of the door styrofoam forming the door by using a hot line cutter;
And adhering the first door outer plate to the cut surface of the door styrofoam,
And a door for a sandwich panel is manufactured from the sandwich panel.
The method according to claim 1,
Wherein the first panel outer panel has irregularities on its surface,
Wherein the first door outer panel has a flat surface.
3. The method of claim 2,
The hot-
A support table on which the panel styrofoam is horizontally moved;
A heating line disposed perpendicularly to the moving direction of the panel styrofoam on the support table and spaced apart from the upper surface of the support table by a thickness of the door styrofoam;
And a heat ray control unit for applying power to the heat ray to heat the heat ray and cut the panel styrofoam.
The method of claim 3,
Wherein the hot wire cutter further comprises a height adjusting unit for adjusting a height of the hot wire to the support table.

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