KR20140028296A - Composite asphalt waterproof sheet integral lightweight prefabricated panel and method for manufacturing the same - Google Patents

Abstract

The present invention relates to an asphalt hybrid waterproof sheet integrated lightweight assembly type panel and a method for manufacturing the same and, specifically, to an assembly panel which is used for a ceiling and a wall as a construction material, and of which a waterproof sheet is combined to one side. The assembly type panel comprises: a square metal plate having the fixed width; a foamed layer formed in the fixed thickness in one side of the square metal plate; a long fiber nonwoven fabric layer combined by being impregnated in the fixed depth into one side of the foamed layer; a modified asphalt layer impregnated in the fixed depth into one side of the long fiber nonwoven fabric layer; and a synthetic resin sheet attached to one side of the modified asphalt layer. Provided are the assembly type panel for integrating a waterproof sheet into one side of the assembly type panel through the manufacturing method, and the method for manufacturing the same. Moreover, the waterproof sheet is used instead of the existing one steel plate, so the weight of the assembly type panel is reduced. Therefore, the weight to a structure or a building is reduced, generation of dew condensation is fundamentally prevented, and additional equipment such as a ventilating opening and a light panel can be easily installed. Since a junction sheet which is made of the same material as the waterproof sheet is used for a junction between panels, the convenience of work is supplied, and the dew condensation is prevented. Moreover, since an additional waterproof construction is not necessary, the construction is facilitated, and the construction time is reduced. Moreover, when an outside is damaged, a damaged part can be repaired by a method for replacing only an assembly type panel in the damaged part.

Description

Composite asphalt waterproof sheet integral lightweight prefabricated panel and method for manufacturing the same}

The present invention relates to a prefabricated panel used for ceiling or wall as a building material, and in particular, one surface of the panel relates to a prefabricated panel combined with a waterproof sheet and a manufacturing method thereof.

A prefabricated panel, commonly called a sandwich panel, is a kind of building material that assembles a plurality of panels to form a roof or a wall of a building or a structure.

Such sandwich panels are generally manufactured by placing cores such as styrofoam (EPS / expandable polystrene), polyurethane resin (PUR), polyisocyanurate resin (PIR), or glass wool (G / W) between a pair of metal plates. It is manufactured by different methods depending on the core material.

Styrofoam panels, referred to as EPS panels, apply an adhesive to an iron plate, and attach the iron plate coated with the adhesive to the front and back of the plate-shaped styrofoam to make the panel. Such ESP panels are produced by the simplest and cheapest method among sandwich panels, but they are releasing toxic gases and ignition materials in case of fire, and are almost defenseless against fire, have weak bending strength and durability, and peel off steel plates and styrofoam after sealing. There is this.

Glass wool or asbestos panels are filled with non-metallic minerals such as glass wool or asbestos, and the production method is styrofoam panel or core material composed of non-metallic minerals. There is an advantage that does not stick well, but the bending strength and durability is weak, and there is a defect that the iron plate and the core material is separated after the seal.

A foam panel such as a PUR panel or a PIR panel is a method of forming a product by foaming a foam liquid mixed with PUR or PIR and a foaming agent as a core and applying a strong pressure up, down, left, and right.

The production method of such foam panels is continuous and intermittent, and the continuous type is a steel plate proceeding at a predetermined speed at a predetermined speed up and down, while filling the foam liquid inside, and the intermittent type cuts and bends the steel plate of a predetermined standard. It is placed in the mold and is produced by fixing and molding by applying strong pressure up and down and left and right while injecting the foam liquid inside.

Foam panels produced by continuous type are mainly used for wall and roof boards of building exterior walls, and foam panels produced by intermittent type are used for partitions, doors, etc. in buildings.

Such foam urethane panels emit toxic gases in case of fire, but the amount is not too high and the flame retardancy is good depending on the material. In addition, the bending strength is excellent and there is no phenomenon that the iron plate and the core material is separated after construction.

It is widely used as a material for the roof construction of buildings or structures using the foam panel as described above.

In the case of forming a roof of a building or structure by installing a plurality of foam panels, the space between the panels and the panel is caused by the separation between the installed panels due to the natural behavior of the building or the structure, or by the contraction and expansion of the steel plate forming the outside of the panel. Water leakage and condensation may occur, so waterproof construction should be done separately.

In the case of waterproof construction using a waterproofing material on the foam panel installed as described above, peeling phenomenon frequently occurs when the panel and the waterproofing material are separated, and in order to reduce the peeling phenomenon, screws, bolts, nails, etc. In the case of using the fixed hardware, it is difficult to partially repair the leakage, condensation, and external damage caused by the fixed hardware.

Application No. 10-2008-0040784 The prior art filed under the name of 'composite sandwich panel and its manufacturing method' relates to a composite sandwich panel and its manufacturing method and covers a plate-shaped flame retardant core having a predetermined width, and flame retardant core material A composite sandwich panel comprising a pair of metal plates stacked on both sides thereof and flame retardant urethane foam filled between a pair of metal plates on both sides of the flame retardant core material, divides the core material of the sandwich panel into a center part and both sides and is flame retardant at the center part. The technical features of using EPS board, flame-retardant urethane foam as core material on both sides, combines only the advantages of existing sandwich panel core materials, and provides excellent insulation and flame retardant performance, and reduces the amount of toxic gas generated during combustion. By securing a certain strength to the panel, it is difficult to deform and close the joints between the sandwich panels. Filling is excellent in airtightness and waterproofness, and the workability and economical efficiency are improved.

However, this also has a problem that the actual waterproof is not achieved, especially in the case of a play between the panels due to the natural behavior of the building or structure, it is necessary to add a waterproofing means such as waterproofing because it does not waterproof at all. The problem described above still occurs.

In particular, the conventional improved asphalt waterproof sheet has been used according to the quality standards of KS F 4917, but when it is applied to the production of panels, due to heat deformation caused by the heat generated in the production process of the panel, the upper finish film is melted or bubbles generated inside The appearance is deformed, and due to the problem that peeling or shrinkage occurs due to the combination of different physical properties, there is a problem in that the asphalt-based waterproof sheet is not integrated into the panel.

The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to provide a prefabricated panel and a method of manufacturing the integrated one surface of the panel as a waterproof sheet.

In addition, it is an object to provide a prefabricated panel and a method of manufacturing the same that can reduce the load on buildings or structures by integrating a waterproof sheet instead of the existing steel sheet on one side.

In addition, an object of the present invention is to provide a prefabricated panel and a method of manufacturing the same, which can prevent condensation without using a separate fixing iron by joining cutout portions of the waterproof layer using a bonding sheet made of the same material as the waterproof sheet.

In addition, it is an object of the present invention to provide a prefabricated panel and a method of manufacturing the same, which is easy to construct, which shortens the construction time and can repair only a damaged part in case of external damage.

The present invention is a prefabricated panel in order to achieve the problem to be solved as described above, the rectangular metal plate having a predetermined width; A foam layer formed on one surface of the square metal plate to have a predetermined thickness; A long fiber nonwoven layer impregnated with a predetermined depth on one surface of the foam layer; A modified asphalt layer impregnated with a predetermined depth on one surface of the long fiber nonwoven layer; And a synthetic resin sheet attached to one surface of the modified asphalt layer.

In addition, the foam layer is a polyurethane (Polyurethane) foam or polyisocyanurate (Polyisocyanurate) foam; characterized by the technical features.

In addition, the long fiber nonwoven layer is characterized in that the mass per unit area of 170g / ㎡ ~ 200g / ㎡ and the thickness is 1.2mm ~ 3mm.

In addition, the modified asphalt layer is a mixture of synthetic rubber, process oil, filler and adhesive to the straight asphalt;

In addition, the present invention is a method for manufacturing a prefabricated panel, a long fiber nonwoven layer forming the iron plate and the other surface forming one surface of the prefabricated panel, a modified asphalt layer impregnated to one surface of the long fiber nonwoven layer to a predetermined depth and the modified asphalt layer. Bonding preparation step of preparing a composite waterproof sheet consisting of a synthetic resin sheet attached to one side of the; A foam liquid coating step of applying a foam liquid to form a foam layer on one surface of the iron plate of the bonding preparation step; Bonding the long fiber nonwoven fabric layer of the composite waterproof sheet prepared in the bonding preparation step and the foam layer in an uncured state while forming a foam layer by foaming the foam liquid; A foam layer curing step of curing the foam layer through natural (room temperature) cooling of the foam layer to which the composite waterproof sheet is bonded; It characterized in that it comprises a; cutting step of cutting the foam layer cured panel according to the specification.

In addition, the foam liquid of the foam liquid application step is a mixture of a polyurethane resin or a polyisocyanurate resin and a foam liquid;

The present invention has the effect of providing a prefabricated panel and a method for manufacturing the same by integrating a waterproof sheet on one surface of the prefabricated panel through the technical features as described above.

In addition, there is an effect that can reduce the load on the building or the structure by reducing the weight of the prefabricated panel by using a waterproof sheet in place of the existing one iron plate.

In addition, there is an effect that does not require a separate waterproof construction, double waterproof structure has the effect of increasing the waterproof effect, and does not require a separate fixing means such as bolts or nails can prevent the occurrence of condensation at the source It works.

In addition, there is an effect that can easily install additional devices, such as vents and skylight panels, there is an effect that does not require a separate trough.

In addition, the bonding portion between the panel has the effect of providing the convenience of work and the condensation phenomenon by using the bonding sheet of the same material as the waterproof sheet.

In addition, since there is no need for a separate waterproof construction, the construction is easy and the effect of shortening the construction time, and in the case of external damage there is an effect that can be repaired by replacing only the prefabricated panel of the damaged part.

1 is a view showing the basic structure of the present invention composite asphalt composite sheet integrated lightweight prefabricated panel,
2 is a view showing the detailed structure of the present invention composite asphalt composite sheet integrated lightweight prefabricated panel,
3 is a view showing an installation example of the present invention composite asphalt composite sheet integrated lightweight prefabricated panel,
Figure 4 is a view showing the process of the present invention composite asphalt composite sheet integrated lightweight prefabricated panel manufacturing method.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

1 is a view showing the basic structure of the present invention composite asphalt composite sheet integrated lightweight lightweight panel, Figure 2 is a view showing a detailed structure of the asphalt composite waterproof sheet integrated lightweight prefabricated panel, Figure 3 is a composite asphalt composite waterproof sheet integrated the present invention Figure 4 is a view showing an installation example of a lightweight prefabricated panel, Figure 4 is a view showing a process of manufacturing a lightweight composite panel integrated asphalt composite waterproof sheet of the present invention with reference to the drawings will be described in detail the present invention through a preferred embodiment of the present invention. .

As shown in FIG. 1, the asphalt composite waterproof sheet integrated lightweight prefabricated panel 10 has a metal plate 110 attached to one surface of the foam layer 120, and the other surface of the composite waterproof sheet 130. Characterized in that is formed.

That is, the composite waterproof sheet 130 is formed integrally with the prefabricated panel 10, characterized in that forms one surface.

Specifically, as shown in FIG. 2, the rectangular metal plate 110 having a predetermined width, the foam layer 120 and the foam layer 120 formed at a predetermined thickness on one surface of the rectangular metal plate 110. The long fiber nonwoven layer 131 is impregnated with a predetermined depth on one surface of the modified fiber layer 132 and the modified asphalt layer 132 impregnated with a predetermined depth on one surface of the long fiber nonwoven layer 131. It comprises a composite waterproof sheet 130 made of a synthetic resin sheet 133 attached to one side of the.

The rectangular metal plate 110 is formed by molding a metal plate in a roll shape to have a predetermined shape.

That is, the metal plate in the form of a roll is processed to have a bend as shown in FIGS. This is to ensure that the rectangular metal plate 110 can maintain its shape against external forces such as bending, vertical load, and horizontal load.

At this time, the square metal plate 110 may further be applied to the anti-corrosion paint or other paint for coloring.

The foam layer 120 is formed on one surface of the rectangular metal plate 110 as shown in FIG. 1 to perform functions such as heat insulation, cold storage, water resistance, and sound insulation.

The foam layer 120 may be formed of various foam liquids, but is preferably formed by applying a polyurethane foam liquid or a polyisocyanurate foam liquid to one surface of the square metal plate 110 and foaming it.

The composite waterproof sheet 130 is formed to be attached to one surface of the foam layer 120 as shown in Figure 1 as shown in Figure 2 long fiber nonwoven fabric layer 131, the long fiber nonwoven fabric layer 131 The modified asphalt layer 132 is impregnated to one surface of a) and a synthetic resin sheet 133 attached to one surface of the modified asphalt layer 132.

The long fiber nonwoven layer 131 is added to minimize the effect on the modified asphalt layer 132 during the production of the foam layer 120, compared to the long fiber nonwoven layer 131 that is commonly used Relatively lowering the density so that the gas (heat) generated during the foaming of the foam layer 120 is discharged through the space of the long fiber nonwoven fabric layer 131.

In addition, one side of the long fiber nonwoven fabric layer 131 is impregnated to the foam layer 120 to a predetermined depth and the other side is impregnated to the modified asphalt layer 132 to a predetermined depth to the foam layer 120 And the modified asphalt layer 132 is indirectly bonded (attached) through the long fiber nonwoven fabric layer 131 without being directly bonded (attached).

The long fiber nonwoven layer 131 is preferably a polyester long fiber nonwoven fabric manufactured by a needle punch method using polyester fibers. This is because polyester fibers have a relatively high strength, excellent chemical resistance and weather resistance, and excellent elastic heat resistance compared to other fibers.

However, the present invention is not necessarily limited thereto, and the synthetic fibers of various materials such as rayon fibers, nylon fibers, polyester fibers, polypropylene fibers, etc. may be used by carding, fusion bonding, needle punching, water flow bonding, and stitching. Various nonwoven fabrics can be used.

In addition, the long fiber nonwoven fabric layer 131 has a mass per unit area of 170 g / m 2 to 200 g / m 2 and a thickness of 1.2 mm to 3 mm to smoothly discharge gas or heat generated during foaming of the foam layer 120. It has a feature to be. This allows the natural cooling of the foam layer 120 is made smoothly.

The modified asphalt layer 132 is made by mixing synthetic rubber, process oil, fillers and adhesive to a straight asphalt in a configuration for waterproofing.

Such modified asphalt layer 132 is improved for use in a waterproof sheet can be used a variety of modified asphalt with improved properties by mixing a variety of components in the straight asphalt.

For example, SBS to butyl rubber, which is a synthetic rubber, is added, process oils such as naphthenes, paraffins and isoparaffins are added, and fillers such as talc, sand, calcium carbonate, carbon black, and dolomite are added, and petroleum resins and sweet potatoes Adhesion, which is a vegetable material such as starch and corn starch, may be mixed to enhance adhesion.

It is preferable that the thickness of the modified asphalt layer 132 is 1.0 mm to 3.0 mm, and the thickness of the long fiber nonwoven fabric layer 131 is preferably 0.3 mm to 0.5 mm.

The synthetic resin sheet 133 is a waterproof synthetic resin sheet that is typically added to the waterproof sheet is attached to one surface of the modified asphalt layer 132 to form a primary waterproof layer.

Such synthetic resin sheet 133 may be of various forms such as sheet paper or film, and is not limited to any specific synthetic resin sheet.

For example, the sheet may be a thermoplastic polyolefin pin sheet, a high density polyethylene (HDPE) film, or the like.

As described above, the asphalt composite waterproof sheet integrated lightweight prefabricated panel 10 has an advantage that the exposed portion is a composite waterproof sheet 130, which does not require a separate waterproofing treatment (construction), as shown in FIG. Bonding site (part not waterproof) between the prefabricated panels 10, 10-1 is a sheet for bonding (finishing) consisting of a modified asphalt layer 132 and a synthetic resin sheet 133 constituting the composite waterproof sheet 130 ( 140) can be attached and waterproofed.

Therefore, the construction is easy and thereby the construction time is shortened, there is no need for a separate fixing means such as nails, pieces, there is an effect that can prevent the condensation phenomenon caused by the fixing means such as nails, pieces at the source.

As a method of manufacturing the present invention asphalt composite waterproof sheet integrated lightweight prefabricated panel as described above, as shown in Figure 4, the bonding preparation step (S10), foam liquid application step (S20), bonding step (S30), foam layer It is characterized by a technical step consisting of a curing step (S40) and a cutting step (S50).

The bonding preparation step (S10) is to prepare a material for producing a prefabricated panel according to the present invention to prepare a composite waterproof sheet 130 forming the iron plate 110 and the other surface of the prefabricated panel.

As shown in FIG. 2, the iron plate 110 is prepared by performing a morphological process to form a corrugated steel sheet having a predetermined shape, and the composite waterproof sheet 130 is formed on one surface of the long fiber nonwoven fabric layer 131. The modified asphalt layer 132 is formed to be impregnated to a predetermined depth, and the synthetic resin sheet 133 is attached thereto to prepare the composite waterproof sheet 130.

The foam liquid application step (S20) is a step of applying a foam liquid for applying a foam liquid for forming the foam layer 120 on one surface of the iron plate 110 prepared in the bonding preparation step (S10) using an iron plate using a foam liquid application equipment Apply the foam liquid to a certain thickness throughout.

In this case, the foam liquid to be applied may be a foam liquid of a variety of materials that can serve as an internal filler of the panel, but is preferably a foam liquid mixed with a polyurethane resin or a polyisocyanurate resin and a foam liquid. Do.

The bonding step (S30) is a step of bonding the composite waterproof sheet 130 prepared in a situation in which the foaming liquid is applied in the foam liquid applying step (S20) to form the foam layer 120 is in progress, of the foam liquid While forming the foam layer 120 by foaming, the long fiber nonwoven fabric layer 131 of the composite waterproof sheet 130 prepared in the bonding preparation step (S10) and the uncured foam layer 120 are bonded to each other.

That is, the composite waterproof sheet 130 is bonded to the foam layer 120 which has been foamed but not yet cured, wherein the long fiber nonwoven fabric layer 131 of the composite waterproof sheet 130 is not yet cured The layer 120 is impregnated to a predetermined depth.

The foam layer curing step (S40) is after the bonding to the foam layer 120 of the composite waterproof sheet 130 in the bonding step (S30) is completed, by cooling the foam layer of the uncured state (at room temperature) Harden.

When the cutting step (S50) is completely made of the foam layer 120 in the foam layer curing step (S40), the cut to a predetermined size (for example 1mX1m) and finally the asphalt composite waterproof sheet integrated lightweight assembly type Produce panels.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

10: Lightweight prefabricated panel with asphalt composite waterproof sheet
110: iron plate
120: foam layer
130: composite waterproof sheet
131: long fiber nonwoven layer
132: modified asphalt layer
133: synthetic resin sheet
140: bonding sheet

Claims (6)

In the prefabricated panel,
A square metal plate having a predetermined width;
A foam layer formed on one surface of the square metal plate to have a predetermined thickness;
A long fiber nonwoven layer impregnated with a predetermined depth on one surface of the foam layer;
A modified asphalt layer impregnated with a predetermined depth on one surface of the long fiber nonwoven layer; And
Asphalt composite waterproof sheet integrated lightweight prefabricated panel, characterized in that consisting of; synthetic resin sheet attached to one surface of the modified asphalt layer. The method of claim 1, wherein the foam layer
It is a polyurethane foam or polyisocyanurate foam; Asphalt composite waterproof sheet integrated lightweight prefabricated panel, characterized in that the. The method of claim 1, wherein the long fiber nonwoven layer
Lightweight prefabricated panel with integrated asphalt composite waterproof sheet, characterized in that the mass per unit area is 170g / ㎡ ~ 200g / ㎡ and the thickness is 1.2mm ~ 3mm. The method of claim 1, wherein the modified asphalt layer is
Lightweight prefabricated panel with integrated asphalt composite waterproof sheet, characterized in that the straight asphalt is mixed with synthetic rubber, process oil, filler and adhesive. In the prefabricated panel manufacturing method,
Composite waterproof sheet consisting of a sheet of iron fabric forming one side of the prefabricated panel and a long fiber nonwoven fabric forming another surface, a modified asphalt layer impregnated to one surface of the long fiber nonwoven layer at a predetermined depth, and a synthetic resin sheet attached to one surface of the modified asphalt layer. Bonding preparation step to prepare;
A foam liquid coating step of applying a foam liquid to form a foam layer on one surface of the iron plate of the bonding preparation step;
Bonding the long-fiber nonwoven fabric layer of the composite waterproof sheet prepared in the bonding preparation step and the uncured state of the foam layer while forming a foam layer by foaming the foam liquid;
A foam layer curing step of curing the foam layer through natural (room temperature) cooling of the foam layer to which the composite waterproof sheet is bonded;
Asphalt composite waterproof sheet integrated lightweight prefabricated panel manufacturing method comprising a; cutting step of cutting the foam layer cured according to the standard. The method of claim 5, wherein the foam liquid of the foam liquid application step
Lightweight prefabricated panel with an integrated asphalt composite waterproof sheet, characterized in that a mixture of polyurethane resin or polyisocyanurate resin and foaming liquid.

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