KR860000211B1 - Manufacturing process for multilayer asphalt - Google Patents

Abstract

Multilayer asphalt is manufd. by alternating asphalt and nonwoven fabric. Molten asphalt is sprayed over a synthetic polymer film. Synthetic polymer fiber or glass fiber is injected into the asphalt layer using compressed air. The molten asphalt is sprayed again and binds the fabric layer. It is covered with reinforcing agent. The process is repeated, laying asphalt, fabric and asphalt. The product has good waterproofing abilities and good resistance to compressive and shear stress.

Description

Manufacturing method of multi-layer asphalt laminate sheet

The accompanying drawings are general process diagrams showing an embodiment of the apparatus according to the manufacturing method of the present invention.

The present invention relates to a method for producing a waterproof multilayer asphalt laminate sheet used in large concrete structures.

Until now, the following method has been used as the method similar to the manufacturing method of the present invention.

First, buy the nonwoven fabric from a nonwoven production factory with the nonwoven fabric already in place, or manufacture the nonwoven in its own factory, then roll the rubberized asphalt that is impregnated in the asphalt and adhered to both or only the impregnated nonwovens. It was a method of coating as a cotta or a knife-coat.

The present invention focuses on the fact that the asphalt itself can be used as a binder of a nonwoven fabric, thereby forming a nonwoven fabric layer using asphalt directly, without using an already made nonwoven fabric, and at the same time repeating the process of coating by spraying the asphalt again. It is to manufacture an asphalt sheet.

The manufacturing process of such a multilayer film asphalt laminate sheet will be described in detail with reference to the accompanying drawings.

As shown in the accompanying drawings, the release paper or the synthetic polymer film feed roller 1 is released from the release paper or the synthetic polymer film by the conveyor belt 2 and moved to the pressing roller 3 to be melted asphalt sprayed on the release paper or film. Molten asphalt is sprayed and applied from the chamber (6), and the fiber falls from the fiber dropping chamber (7) on the applied asphalt layer to form a nonwoven layer, and molten asphalt from the molten asphalt chamber (8) is again placed thereon. The reinforcing material covers the asphalt layer from the reinforcing material supply roller 9 while being spray-coated and moved. Asphalt, fibers, asphalt are laminated and sand, by means of a sand supply tank 13 or a release paper, or a synthetic polymer film feed roller 14 While the release paper or film is bonded through the pressing roller (3) to complete the product.

The characteristic of the product manufactured by this method is that it forms a nonwoven fabric layer, and unlike the point of using asphalt and the nonwoven fabric in which the nonwoven fabric layer is already formed, it does not have a flat plane and has a curved surface to some extent, especially a drop. Part of the fiber to be inclined so as to have a structure connected to the upper and lower layers and bound.

In other words, it is a structure with no distinction between layers, and in the extreme case, the entire multilayer film can be regarded as a single mixture of asphalt and fibers.

Although the formation of such a structure is, of course, due to the formation of the nonwoven fabric layer as the fiber, it can be said that the compressed air introduced from the compressed air inlet pipe 15 is filled on the asphalt layer at a rate higher than a natural drop. .

It can be seen that the physical properties are extremely excellent when compared to the conventional product of the multilayer film asphalt laminate sheet according to the present invention as described above.

The waterproof sheet manufactured by stacking conventional asphalt with synthetic polymer film or woven fabric is pushed to both sides due to the inherent properties of asphalt when the pressure is applied up or down, or both sides, so that only the film or woven thickness plays a role of waterproofing. Therefore, the effect of the laminated thickness cannot be expected, while the whole layer of the method by this method is reinforced on the nonwoven fabric layer to obtain good pressure resistance, so that there is no rolling, so the entire layer becomes waterproof, and asphalt and woven fabric, Alternatively, laminates made from film laminates or asphalt and already made nonwoven fabrics have a simple planar adhesive surface with asphalt and reinforcement layers, while the product is not clear between layers and has a somewhat curved surface with fibers connected between layers. It is a structure that has a binding, so the shear force is excellent, Less jungle due to pressure.

In the case of the nonwoven fabric or the woven fabric, the asphalt and the laminated body are formed, which is a function of a filling adhesive having a watertight adhesive effect as a binder for forming the nonwoven fabric. However, when water-soluble, the nonwoven fabric layer penetrates water. In the case of woven fabrics, good waterproofing is not expected as well as nonwoven fabrics, even when asphalt impregnation is insufficient in the process of processing or when the asphalt penetration is insufficient due to chemical processing of woven fabrics or woven chemicals.

However, this product is composed of a nonwoven fabric, a permeable and watertight asphalt, and the fibers constituting the nonwoven fabric are non-continuous as short fibers, which makes it difficult to penetrate water by acting like a nonwoven fabric or laminate.

As described above, the multilayered asphalt laminate sheet according to the present invention is a product having excellent pressure resistance, shear resistance, and waterproofing effect as compared to the conventional products. In addition, synthetic polymer fibers or glass fibers in which the fibers constituting the nonwoven fabric layer are discarded at the factory. It can be used, it is possible to combine the construction process for forming a multilayer film in a single product can reduce the cost of the product and there is an advantage that can reduce the construction cost.

Claims (2)

In the production of a multilayered film by alternately stacking asphalt and nonwoven fabric, a nonwoven fabric layer is formed by applying synthetic polymer fibers or glass fibers on the asphalt layer. Method for producing a multilayer film asphalt sheet, characterized in that the filling on the layer. The method of claim 1, wherein as a method of forming the asphalt and the nonwoven layer, the molten asphalt is sprayed and applied from the molten asphalt spraying chamber 6 onto a release paper or film to be moved, and the fiber dropping jig 7 is applied on the coated asphalt layer. As the fibers fall from the woven fabric, a layer on the nonwoven fabric is formed, and the molten asphalt is sprayed and moved from the molten asphalt chamber 8 again. Addition (10), (11), characterized in that the stacking of asphalt, fibers, asphalt in the order of (12).

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