JP2002193652A - Thermal insulation coating and its spraying method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thermal insulation coating, which keeps convenience of execution of a semi-wet mixed spraying method and obtains a required strength at the lowest possible cost, and its spraying method. SOLUTION: The thermal insulation coating comprises a rock wool and a cement to solidify the rock wool, the cement contains a binder. In spraying the rock wool with a cement slurry to form a thermal insulation coating, the cement slurry is prepared from cement and water as major components with an addition of a binder, where a bituminous or a synthetic resinous binder is usable. The content of binder is preferable in the range of 0.1-5 wt.%.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-insulating coating formed on the surfaces of steel frames and reinforced concrete buildings and their inner walls and ceilings, and a spraying method therefor. It relates to coating and its spraying method.

[0002]

2. Description of the Related Art A method of spraying rock wool (rock wool) together with a cement slurry on a surface of an inner wall or a ceiling of a steel frame or a reinforced concrete building to prevent dew condensation has been developed.

[0003] The steel frame supporting the building is a non-combustible material. However, when the temperature exceeds 450 ° C, the strength drops sharply, and when the temperature reaches 800 to 1200 ° C or higher, the building cannot be supported. Therefore, it is necessary to provide some kind of thermal insulation coating as a fire measure. For this reason, a spraying method of a thermal insulation coating in which rock wool (rock wool) is sprayed together with a cement slurry for the thermal insulation coating of a steel frame of a building has been developed.

[0004] There are two types of spraying methods of this heat insulation coating, a dry spraying method and a wet spraying method. There are two types of dry spraying methods, a pure dry spraying method and a semi-wet spraying method. A semi-wet spraying method is generally used as a dry spraying method.

FIG. 1 is an explanatory view of a semi-wet spraying method, FIG.
FIG. 3 is an enlarged explanatory view of a spraying part by a semi-wet spraying method. The semi-wet spraying method sprays a heat insulating coating on the surface of a steel frame as follows.

That is, cement and water are put into a slurry stirrer 10 and sufficiently stirred in the slurry stirrer 10 to form a cement slurry. The cement slurry in the slurry stirrer 10 is pumped by a slurry pump 12 by a cement pump 12. The pressure is fed to the cement slurry discharge nozzle 16 via the hose 14, discharged from the cement slurry discharge nozzle 16, and sprayed onto the surface of the steel frame 18.

[0007] Further, using a spraying machine 22 provided with a roots proer 20, rock wool is pneumatically fed to a rock wool discharge port 26 through a rock wool pressure feeding hose 24 and discharged from the rock wool discharge port 26. , Steel frame 1
Spray on the surface of 8.

[0008] The cement slurry atomized by the cement slurry discharge nozzle 16 is sprayed onto the surface of the steel frame 18 while mixing with the rock wool to form a heat insulating coating 28 composed of the rock wool and the cement slurry.

In this method, the installation of the spraying machine and the like is relatively simple, and the construction cost is low.

FIG. 3 is an explanatory view of the wet spraying method, and FIG. 4 is an enlarged explanatory view of a spraying portion by the wet spraying method.
In the wet spraying method, a heat insulating coating is sprayed on the surface of a steel frame as follows.

That is, water is added to a material in which rock wool and cement are premixed in advance,
The mixture is kneaded with a mixer 30 to form a mortar, which is then pressure-fed to a discharge port 36 through a rock wool pressure-feeding hose 34 by a spraying machine 32, and compressed air supplied from a compressor 38 is applied to the surface of the steel frame 18 from the discharge port 36. By spraying, a heat insulating coating 28 is formed on the surface of the steel frame 18.

This method is characterized in that dust is not generated during the construction as in the case of the dry construction method, and that repair work or work with a trowel can be performed when the construction area is extremely small.

[0013]

By the way, the heat insulating coating 28 formed by the conventional semi-wet spraying method is soft and brittle, so that a slight impact or vibration may cause peeling or falling off. Further, rock wool not fixed by the cement slurry remains on the heat insulating coating 28,
Rock wool dust is generated from the surface of the heat insulating coating 28,
There is a problem that it spreads in the environment and is bad for health.

Further, the wet spraying method has a problem that it scatters to the outside at the time of spraying, it is difficult to control quality, in particular, it is difficult to control the spray thickness, and it takes time to secure a predetermined hardness. Further, the wet spraying method has a problem that the construction cost is higher than that of the semi-wet spraying method.

An object of the present invention is to provide a heat insulating coating having a desired strength and a construction cost as low as possible while maintaining the simplicity of the construction of the semi-wet spraying method, and an object of the invention.

[0016]

According to the present invention, there is provided a thermal insulation coating comprising rock wool and a cement for fixing the rock wool, wherein the cement contains an adhesive. .

Here, as the cement, for example, Portland cement (JIS R 5210), blast furnace cement (JIS R 5211), and white cement can be used. In addition, as the adhesive, a bituminous adhesive or a synthetic resin adhesive can be used. The content (weight) of the adhesive is 0.1 to 5% by weight.
Is preferred. If the amount is less than 0.1% by weight, the adhesive strength is insufficient.
This is because if the amount is more than 10% by weight, the fire resistance of the heat insulating coating will be reduced.

The ratio (weight) of the rock wool to the cement is preferably 1: 0.18 to 0.54.

The method for spraying heat insulating coating according to the present invention is a method for spraying heat insulating coating in which rock wool is sprayed together with a cement slurry, wherein the cement slurry contains cement and water as main components and contains an adhesive. It is characterized by the following.

Here, as the cement, for example, Portland cement (JIS R 5210), blast furnace cement (JIS R 5211), and white cement can be used. The adhesive may be a bituminous adhesive or a synthetic resin adhesive. Further, the adhesive in the cement slurry is preferably 0.1 to 5% by weight. If the amount is less than 0.1% by weight, the adhesive strength is insufficient, and if it exceeds 5% by weight, the fire resistance of the heat insulating coating is reduced.

The ratio (weight) of the rock wool to the cement slurry is preferably 1: 0.18 to 0.54. In addition, the cement slurry has a cement content of 20 to
A range of 40% by weight and 80 to 60% by weight of water is preferred.

The place where the heat insulating coating is to be formed by spraying according to the present invention is preferably on the back of a wall or ceiling of a steel-frame concrete or reinforced concrete building, or on the surface of a steel frame.

[0023]

EXAMPLE First, a slurry tank with a stirrer was prepared.
50 liters of water and 25k of cement in this slurry tank
g, and these were stirred and mixed for 10 powders to prepare a cement slurry. Here, Portland cement (JIS R 5210) was used as the cement, and tap water was used as the water.

Next, an adhesive was added to 1 liter of the cement slurry at a rate of 3 to 70 ml, respectively.
A cement slurry containing an adhesive was obtained. Here, the adhesive is a synthetic resin adhesive (trade name: Pegament DK only)
Was used.

Next, using a spraying machine, rock wool was sprayed onto the surface of the experimental H-section steel together with the above cement slurry (one containing an adhesive and one containing no adhesive).

Here, the spraying construction machine includes a spray gun for spraying rock wool together with the cement slurry, a spray machine for sending rock wool to the spray gun, and a slurry pump for sending the cement slurry in the slurry tank to the spray gun. It has.

The rock wool blown out from the rock wool outlet of the blow gun collides with the surface of the H-shaped steel while being wrapped in the cement slurry sprayed at the cement blow outlet of the blow gun. It is deposited on the surface of the H-section steel.

Here, the discharge rate of the rock wool blown out from the blowing gun is 4 kg / min, and the discharge rate of the cement slurry sprayed from the blowing gun is 6 liter / mi.
n, and the thickness of the thermal insulation coating formed on the surface of the H-section steel is 3
5 mm.

Next, a tension fitting was attached to the surface of the heat-insulating coating, allowed to stand for 24 hours, air-dried, and the heat-insulating coating was cured. Here, the tensile fitting used had a size of 10 cm × 10 cm to be adhered to the heat insulating coating.

Further, the thermal insulation coating (undried state) 4 hours after spraying was cut off with a bulk specific gravity measurement cut-off device specified by the Rockwool Industry Association, and the bulk specific gravity was determined separately.
As shown in Table 1.

Next, a load was applied to the tension fitting to determine the strength of the heat insulating coating. The strength of the heat insulating coating was as shown in Table 1.

[0032]

[Table 1]

From the results shown in Table 1, the adhesive was 0.1% by weight.
%, The tensile strength is 80 g / cm ²Peels off the insulation coating with
Occurred. Also, if the adhesive exceeds 5% by weight, fire resistance
And a large amount of gas is generated during the heating test.
Was.

Next, the two steel frames are connected, and the above-mentioned heat-insulating coating (containing 2% of adhesive) is sprayed on the connecting portion, and left to stand for 72 hours.
When the joints were distorted by moving the steel frames and the state of the heat insulating coating was observed, the heat insulating coating was firmly fixed to the connecting parts and did not peel off.

From the results of the above experiments, the thermal insulation coating obtained by the spraying method according to the present invention has flexibility, and even if a steel frame or the like is distorted, even if it is distorted from the surface of the steel frame, in particular, from the joint thereof. Because it was strong, it was found to be suitable as a thermal insulation coating for buildings with seismic isolation structures.

[0036]

According to the present invention, there is an effect that a heat insulating coating having a higher peeling strength than the conventional semi-wet spraying method can be provided at a low cost.

Further, according to the present invention, since the heat insulating coating has flexibility and has good followability against the sway of the building, when the steel frame of the building having the seismic isolation structure is coated, the wet spraying is performed. There is an effect that the possibility of peeling and falling off is smaller than that by the method.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a semi-wet spraying method.

FIG. 2 is an enlarged explanatory view of a spraying part by a semi-wet spraying method.

FIG. 3 is an explanatory view of a wet spraying method.

FIG. 4 is an enlarged explanatory view of a spraying section by a wet spraying method.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Slurry agitator 12 Slurry pump 14 Cement slurry pumping hose 16 Cement slurry discharge nozzle 18 Steel frame 20 Roots proer 22 Sprayer 24 Rockwool pressure-feeding hose 26 Rockwool discharge port 28 Insulation coating 30 Mixer 32 Sprayer 34 Rockwool pressure-feeding hose 36 Discharge port 38 Compressor

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Claims (9)

[Claims] 1. A thermal insulation coating comprising rock wool and cement hardening the rock wool, wherein the cement contains an adhesive. 2. The thermal insulation coating according to claim 1, wherein the adhesive is a bitumen-based, synthetic rubber-based or synthetic resin-based adhesive. 3. The content (weight) of the adhesive is 0.1.
The thermal insulation coating according to claim 1 or 2, wherein the content is from 5 to 5% by weight. 4. The thermal insulation coating according to claim 1, wherein a ratio (weight) of the rock wool and the cement is 1: 0.18 to 0.54. 5. A method for spraying heat insulating coating, wherein rock wool is sprayed together with a cement slurry, wherein the cement slurry contains cement and water as main components and contains an adhesive. 6. The method according to claim 5, wherein the adhesive is a bitumen-based, synthetic rubber-based or synthetic resin-based adhesive. 7. The method according to claim 1, wherein the adhesive in the cement slurry is 0.1.
The method according to claim 5 or 6, wherein the amount is 1 to 5% by weight. 8. The method for spraying a heat insulating coating according to claim 5, wherein a ratio (weight) of the rock wool and the cement slurry is 1: 0.18 to 0.54. . 9. The method according to claim 9, wherein the cement slurry is cement 20.
The method for spraying a heat insulating coating according to any one of claims 5 to 8, wherein the spraying method comprises about 40% by weight and 80 to 60% by weight of water.