JPS62211436A - Exterior heat insulating construction method - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] <Industrial application field> The present invention relates to a method of external insulation construction.

<Prior Art> Spraying and painting of rigid polyurethane foam is a conventional technique. However, the main material was the interior wall material, while the base material was mainly made of aluminum or wood with a smooth surface.

The reason for this is that even if the surface is smooth, spraying causes the surface to foam and become uneven, so if concrete is poured with unevenness, the unevenness will be extremely unsightly and it cannot be used as an exterior wall material. be. Of course, sanding the surface itself is known. However, spraying without injecting hard polyurethane has a high specific gravity and high cost, but this method is intentionally used because spraying does not utilize the skin created by foaming, and Conventionally, it was common knowledge that the inner surface of the material was not unsightly and did not require hardness.

<Problems to be Solved by the Invention> In view of the circumstances of rescue, the present invention aims to provide a construction method for external insulation, which mainly involves spraying and painting of rigid polyurethane foam.

Furthermore, the construction method of the present invention can be used as an exterior wall material for rooftops or walls, and if the base material is a new construction, it can be applied directly to the exterior wall material without applying mortar to the concrete surface. Another purpose is to prevent the occurrence of cracks, etc. due to expansion of the ζ-mortar since it is made of non-woven material.

Another object of the construction method of the present invention is that when applied to tile roofs in cold regions, heat is completely blocked and snow shoveling is no longer necessary.

Measures to solve problems〉 Rigid polyurethane foam has good adhesive properties, so if it is sprayed directly onto the surface of concrete or the iron plate of a tile bar, it can be strongly bonded and create a heat insulating layer. can be formed.

Here, the physical properties of rigid polyurethane foam can be continuously changed from hard to semi-rigid by selecting the molecular weight and number of functional groups of the polyol. If you choose a moderately rigid polyurethane foam, it can also function as a waterproof layer without causing cranking.

In addition, when spraying this rigid polyurethane foam, a complete waterproof layer can be obtained by forming a protective layer on the surface of the layer using ordinary mortar, mortar mixed with synthetic resin, or synthetic resin paint. When spraying, if the surface is uneven, the protective layer can be formed after sanding.

By the above means, the above problems were solved.

Effect> In addition to the heat insulation effect, the method of the present invention also has the effect of preventing aging of the concrete base material.

<Example> FIGS. 1 to 3 show an example of the external insulation construction method of the present invention.

(1) is a base material consisting of a concrete wall, but since this is still concrete, its surface (1a
, ) consists of a rough surface with no finish. In addition, the wall surface used in the method of the present invention may include a joint portion such as a mortar wall, a block wall, or a lightweight concrete wall.

A two-wave rigid polyurethane foam was sprayed onto the surface (1a) of this base material (1). Solution A consists of 1 part by weight of a polyether polyol with a molecular weight of 380 and an equivalent of 144 to 152 made of a trifunctional triol, 15 parts by weight of a polyether polyol with a 2-hydroxyglobyl ethylene diamine equivalent of 73, and 1.5 parts by weight of polyglycol silicone. parts by weight, and 1.5 parts by weight of di-n-gutiltin silacrate.
Solution B consists of 182 parts by weight of crude diphenylmethane diisocyanate and 15 parts by weight of trichlorofluoromethane.
(2) is a waterproof layer of a rigid polyurethane foam onto which liquid A and liquid B mixed with parts by weight are sprayed at a ratio of 1:1, and this spraying process is the first step of the present invention. (2a)
is the surface of a hard polyurethane foam. If it is smooth, it can be used as is; however, if it is extremely uneven, it must be cut to a smooth surface using a sander (3) as shown in Figure 2.

Next, as shown in FIG. 3, a protective layer (4) is formed after sanding (3) or, if the surface is smooth, as it is. This protective layer (4) is made by applying ordinary mortar, mortar mixed with synthetic resin, synthetic resin paint, etc. with a trowel or spraying it. The synthetic resin-containing mortar herein refers to a mortar containing an acrylic emulsion polymer having cationic particle charges, and forms a flame-retardant protective layer. This step of forming the protective layer is a subsequent step of the present invention, and is formed by various coating or spraying methods.

The surface of this protective layer (4) is sprayed with wall finishing material.
Tiles, etc. are used for ricin or spraying.

FIG. 4 shows another embodiment of the external insulation construction method of the present invention.

0υ is the base material made of iron plate tile rod roof.

The same hard polyurethane foam (b) as in the previous example was sprayed onto the surface of this base material (n). A protective layer made of mortar mixed with a cationic resin was formed on the surface of this rigid polyurethane foam (b), and a finishing layer made of a color top made of acrylic urethane was further formed on the surface.

<Effects of the Invention> The insulation of the outer wall has conventionally been unprotected. However, the construction method of the present invention makes it possible to completely insulate the outer wall surface by spraying the hard polyurethane foam onto the outer wall.

Conventional concrete walls were finished with mortar, which caused the mortar on the surface to lift and cause cracks. However, in the construction method of the present invention, the hard polyurethane foam is sprayed directly onto the concrete wall, so such racks do not occur, and structural cracks caused by uneven settlement of the building are prevented, and these cracks are prevented. It no longer reaches the epidermal layer.

The construction method of the present invention has a layer of hard polyurethane foam on the outer wall, so it is a construction method that has heat insulation performance. Traditionally, spray painting of rigid polyurethane foam is
It was mainly installed on the interior. However, the construction method of the present invention is characterized in that it is applied to the outside of the exterior wall material, which makes spraying thinner and more economical, and has the effect of imparting a heat-insulating effect. The temperature can be maintained.

For example, if it is the same day in an unmanned room, 2.5 to 3 as shown in Table 1.
．． 0℃ higher.

Table 1 Unmanned room ℃ Also, the temperature of the concrete surface is 2.5 as shown in Table 2.
~3.0℃ higher.

Table 2 Concrete surface ℃ Furthermore, in the case of a room that is repeatedly heated, it is 7.0 as shown in Table 3.
~7.5℃ higher.

Table 3 Repeatedly heated room °C As mentioned above, when repeatedly heated in winter, Kempo does not cool the outer wall, so the heat storage effect is great, and therefore there is no difference in temperature between day and night in both summer and winter, making it comfortable.

On the other hand, waterproofing of rooftops, balconies, roofs, etc. has traditionally been done using bitumen,
Waterproof coatings such as rubber sheets and synthetic rubber were common.

However, there were many places where shallow rainwater came in due to cracks and aging of the concrete. On the other hand, the construction method of the present invention is firmly bonded to concrete, etc., and the closed cells of the rigid polyurethane foam have a waterproof effect that also serves as insulation, and have elasticity to prevent cracks from occurring due to vibrations such as earthquakes. The selected formulation has the effect of absorbing cracks and making the surface completely seamless without cracking.

For tile stick roofs in cold regions, the method of the present invention has a large insulation effect, extends the life of buildings, is convenient for reinforcement of houses, and prevents the surface in contact with the tiles from becoming icy. This project provides a new construction method as a drastic energy-saving measure that is expected to have excellent effects and does not require snow shoveling.

[Brief explanation of drawings]

Fig. 1 is a longitudinal cross-sectional view of the spraying step showing an embodiment of the construction method of the present invention, Fig. 2 is a longitudinal cross-sectional view of the same sanding step, and Fig. 3 is a longitudinal cross-sectional view of the spraying step.
The figure is a longitudinal sectional view of the same protective layer forming step, and FIG. 4 is a tomographic perspective view showing another embodiment of the construction method of the present invention. In the diagram: (1) (11)... Base material, (1a)...
・Rough surface, (2) (b)...hard polyurethane foam,
(3)...Thunder chip, (4)0→...Protective layer. Applicant: Toyo Waterproofing Industry Co., Ltd. Figure 4

Claims (1)

[Claims] 1. A step of spraying a hard polyurethane foam onto the surface of a base material made of the exterior wall material of a rooftop or wall or tile roof;
1. A method for external insulation construction, comprising the step of forming a protective layer on the surface of the rigid polyurethane foam. 2. The method for external insulation construction according to claim 1, characterized in that a sanding step is provided between the spraying step and the painting step. 3. The method for external insulation construction according to claim 1, wherein the surface of the base material is a rough surface without surface finishing, as it is after pouring concrete.