KR101348384B1 - Atomizing method for the instant waterproofing - Google Patents

Abstract

It relates to a waterproofing material coating method and coating apparatus for instantaneous waterproofing. Waterproofing material coating method is a method for applying a waterproofing material using a two-fluid nozzle comprising a first nozzle and a second nozzle formed to surround the first nozzle to achieve the above object, a fluidizing agent to the waterproofing material And fluidizing the fluidized material, flowing the fluidized waterproofing material into the first nozzle and oscillating the introduced waterproofing material by the ultrasonic vibrator in the first nozzle and simultaneously supplying compressed air to the second nozzle to supply the compressed air from the first nozzle. And discharging the waterproofing material.
In addition, a waterproofing material fluidized by containing a fluidizing agent, and a second nozzle formed to surround the first nozzle and the first nozzle to which the waterproofing material is introduced, and compressed air is supplied to discharge the waterproofing material from the first nozzle. A two-fluid nozzle including, an ultrasonic vibrator embedded in the first nozzle and vibrating the waterproof material introduced into the first nozzle and a waterproof material in the first nozzle to lower the viscosity of the waterproof material, and the second nozzle It includes a thermoelectric element for cooling the air inside to increase the air density in the second nozzle.

Description

Atomizing method for the instant waterproofing}

The present invention relates to a waterproofing material coating method and apparatus for instantaneous waterproofing by using acetone as a fluid for fluidization and applying by using a two-fluid nozzle equipped with a thermoelectric element when applying the waterproofing material. will be.

In general, when rainwater or groundwater penetrates into civil structures such as rooftops of rooftops, upper part of underground parking lot, underground exterior walls, subways, underground roadways, cavities, etc., the bond strength of concrete materials is reduced and void cracks occur due to temperature changes. And reduced lifespan of civil engineering structures.

Therefore, waterproof construction is required for concrete structures, and the waterproof construction is a very important factor in concrete structures.

At present, the materials used for waterproof construction include a sheet waterproofing material, a coating film waterproofing material and a mastic waterproofing material, and the above-mentioned conventional waterproofing materials mostly use water as a fluidizing material when the waterproofing material is applied.

Therefore, since the evaporation rate of water is very slow at normal room temperature, there is a problem that the waterproofing material takes a long time to obtain a waterproofing effect by drying.

Publication 10-2003-0062082 (published Jul. 23, 2003)

SUMMARY OF THE INVENTION An object of the present invention is to provide a waterproofing material coating method and a coating device for instantaneous waterproofing so that the waterproofing material can be quickly dried and the waterproofing effect is immediately manifested.

The present invention for achieving the above object is a method of applying a waterproofing material using a two-fluid nozzle comprising a first nozzle and a second nozzle formed to surround the first nozzle, comprising a fluidizing agent in the waterproofing material to fluidize step; Flowing the fluidized waterproofing material into the first nozzle and vibrating the introduced waterproofing material by the ultrasonic vibrator in the first nozzle, and supplying compressed air to the second nozzle to discharge the waterproofing material from the first nozzle. It provides a method for applying a waterproofing material for waterproofing including instantaneous.

Further, a waterproofing material fluidized by containing a fluidizing agent; A double-fluid nozzle including a first nozzle into which the waterproofing material flows, and a second nozzle formed to surround the first nozzle, and compressed air supplied to discharge the waterproofing material from the first nozzle; An ultrasonic vibrator embedded in the first nozzle and vibrating the waterproofing material introduced into the first nozzle; And a thermoelectric element for lowering the viscosity of the waterproofing material by heating the waterproofing material in the first nozzle and cooling the air in the second nozzle to increase the air density in the second nozzle. .

According to the present invention, the waterproofing material is applied to the surface to be waterproofed by using an airflow nozzle, and the waterproofing material is applied by atomizing in micron units. Therefore, the surface area of the waterproofing material can be widened to the maximum and the drying speed of the waterproofing material can be reduced. In addition, by applying acetone together to fluidize the applied waterproofing material, the waterproofing material dries quickly, and the waterproofing effect can be immediately exhibited.

1 is a view showing the inside of the waterproofing material applying apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the inside of the waterproofing material applying apparatus according to an embodiment of the present invention. As shown in FIG. 1, the waterproofing device applying apparatus 100 includes an airflow nozzle 110, an ultrasonic vibrator 120, and a thermoelectric element 130.

Waterproofing materials are materials that prevent water from seeping into buildings or roads and contain a fluidizing agent. The reason why the fluidizing agent is added to the waterproofing material is that when the fluidizing agent is added to the waterproofing material prepared in advance and stirred, the softening property can be obtained, and it can be spread evenly without aggregation when the waterproofing material is applied.

The two-fluid nozzle 110 includes a first nozzle 111 and a second nozzle 112.

When the waterproof material flows into the inlet of the first nozzle 111, the waterproof material flows out to the outlet by the built-in ultrasonic vibrator 130. The outlet of the first nozzle 111 is formed in a funnel shape that becomes narrower in width, which is to change the pressure energy into velocity energy by reducing the discharge cross-sectional area when discharging the liquid.

The second nozzle 112 is formed to surround the first nozzle 111, and compressed air is supplied to the inlet of the second nozzle 112. The waterproof material discharged from the first nozzle 111 receives compressed air from the second nozzle 112, and thus, the particles of the discharged waterproof material may be finely formed in units of microns. Therefore, the surface area of the discharged waterproofing material can be widened to the maximum, thereby reducing the drying speed of the waterproofing material.

The ultrasonic vibrator 120 is embedded in the first nozzle 111 and helps to discharge the waterproof material introduced into the first nozzle 111 to be discharged to the outlet of the first nozzle 111.

The thermoelectric element 130 heats the waterproofing material in the first nozzle 111 by interaction between heat and electricity to lower the viscosity of the waterproofing material, and cools the air in the second nozzle 112 to improve the air density in the second nozzle 112. Help to boost Therefore, the viscosity of the waterproof material introduced into the first nozzle 111 by the thermoelectric element 130 decreases and the density of the compressed air introduced into the second nozzle 112 increases, thereby being discharged from the airflow nozzle 110. Waterproofing material is atomized.

As described above, the waterproofing material applying apparatus 100 according to an embodiment of the present invention by applying the waterproofing material using the airflow nozzle 110 provided with the thermoelectric element 130, atomizes the waterproofing material in units of microns. Therefore, the surface area of the discharged waterproofing material can be widened to the maximum, thereby reducing the drying speed of the waterproofing material.

On the other hand, the fluidizing agent may be made of an acetone material. Conventionally, water is used mostly as a fluidizing agent to fluidize a waterproofing material, but water takes a long time to obtain a waterproofing effect by drying the waterproofing material because the evaporation rate is very slow at room temperature. Therefore, as the acetone is used as the fluidizing material, the waterproofing material dries quickly even at room temperature, so that the waterproofing effect may immediately appear.

Referring to the waterproofing material coating method for instantaneous waterproofing according to an embodiment of the present invention.

First, when a waterproof material, which is a material that prevents water from penetrating into a building or a road, flows into an inlet of the first nozzle 111, the waterproof material is first sprayed using the ultrasonic vibrator 120 mounted inside the first nozzle 111. (111) to the outlet. At this time, the waterproofing material is applied together with the fluidizing agent to soften the waterproofing material, which may be made of acetone material.

Then, compressed air is supplied from the inlet of the second nozzle 112 to atomize and discharge the waterproofing material supplied from the first nozzle 111. At this time, the second nozzle 112 is provided with a thermoelectric element 130, which heats the waterproof material in the first nozzle 111 to lower the viscosity of the waterproof material, and cools the air in the second nozzle 112 to cool the second nozzle. This is to atomize the waterproofing material by increasing the air density in the 112.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation and that those skilled in the art will recognize that various modifications and equivalent arrangements may be made therein. It will be possible. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

110 .. Two-fluid nozzle 111. First nozzle
112. Second nozzle 120. Thermoelectric element
130 .. Ultrasonic Oscillator

Claims (4)

As a method of applying a waterproofing material using a two-fluid nozzle comprising a first nozzle and a second nozzle formed to surround the first nozzle,
(a) fluidizing the inclusion of a fluidizing agent in the waterproofing material;
(b) flowing the fluidized waterproofing material into the first nozzle and oscillating the introduced waterproofing material by the ultrasonic vibrator in the first nozzle, and supplying compressed air to the second nozzle to discharge the waterproofing material from the first nozzle. Including;
In the step (b), the waterproof material in the first nozzle is heated by a thermoelectric element to lower the viscosity of the waterproof material, and the air in the second nozzle is cooled to increase the air density in the second nozzle to atomize the waterproof material. Waterproofing material coating method for instantaneous waterproofing comprising a. delete The method of claim 1,
The fluidizing agent is a waterproof material coating method for instantaneous waterproofing, characterized in that consisting of acetone material. delete

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