KR200363688Y1 - A system for removing water in a roof of a building - Google Patents

Abstract

The present invention is directed to a system that removes moisture or moisture that penetrates the floor of a building roof. More specifically, the present invention relates to a system and apparatus for forming a heat insulation layer groove in a roof or rooftop concrete of a building, and removing moisture accumulated in the heat insulation layer by using a suction pipe and a suction device.

Description

A system for removing water in a roof of a building}

The present invention is directed to a moisture removal system that removes moisture or moisture that has permeated the floor of a building roof. More specifically, the present invention relates to a system apparatus for drying moisture that has permeated inside a rooftop by first removing moisture accumulated in an insulation layer inside concrete on a roof of a building.

In general, building roof is slab construction with concrete, waterproofing with asphalt waterproofing liquid on it, insulation construction with insulation, and pressing concrete construction as rooftop floor on it. In the case of the roof of the building, the insulation uses a foam insulation such as styrofoam, which is a kind of foam resin, which has hygroscopicity containing moisture.

In the case of the roof or the roof of the building, the water generated by rain or snow is not drained and removed, but part of it is infiltrated with concrete and insulation inside the rooftop. As time goes by, the amount of water soaked will cause cracks and erosion on the rooftop, especially in winter, which will freeze and promote freezing and cracking.

If these cracks are left on the roof or roof of the building, water leaks through the roof floor and causes water leakage and shortens the life of the building.

In order to prevent cracks and water leakage of the roof of the building, floor repair work is performed. In the floor repair work, it is common to repair and waterproof the floor with an exposed waterproof system, such as urethane work. In addition, since the floor of the slab is constructed with waterproofing materials from the time of building, cracks occur due to the passage of time and water penetrates into the cracks generated.

However, it is impossible to remove the water that has already penetrated the rooftop by such repair work. Also, if the waterproofing material is applied while the water has already penetrated the rooftop, the water in the interior may change due to temperature changes. Repeated cooling and expansion causes cracks, especially in summer and winter, and induces a layer of external waterproof material on the floor due to volume expansion of water.

As such, the conventional waterproof construction such as water leakage prevention on a rooftop floor prevents water from penetrating into the rooftop floor, and there is no research on a method of removing water that has already penetrated therein.

In this regard, the present inventors studied a more efficient method of waterproofing and repairing a building roof. As a result, the present invention was completed by knowing that the water efficiency permeated directly inside the rooftop can be directly removed to improve the waterproofing efficiency and prevent cracking or chipping of the rooftop.

In addition, the inventors found that the amount of water permeated inside the rooftop was beyond imagination, and there was a need to remove such water directly.

Accordingly, it is an object of the present invention to provide a system device that effectively removes water that permeates the rooftop floor effectively.

It is also an object of the present invention to provide a system for efficiently drying the interior of the floor as well as removing moisture in the rooftop floor.

1a and 1b is a view of a groove drilled inside the concrete to form a water removal system according to the present invention.

Figure 2a is an example of a schematic diagram of the water removal system inside the rooftop floor according to the present invention.

Figure 2b is a schematic diagram illustrating the principle of the water removal system described in Figure 2a.

Figure 3a is an example of a schematic diagram of the water removal system inside the rooftop floor according to the present invention.

3B is a schematic diagram illustrating the principle of the water removal system described in FIG. 3A.

Figure 4 illustrates by reference the schematic diagram of the moisture drying system that can be used with the water removal system according to the present invention.

The present invention provides a water removal system that can remove water that has permeated the insulation layer inside the rooftop concrete.

The water removal system is a groove formed on the rooftop connected to the inner portion of the insulation and formed by removing the insulation; A suction pipe for sucking moisture from the groove; And a suction device connected to the suction pipe, wherein the suction pipe is disposed to generate a gap in which air can be introduced between the groove and the suction device is a device capable of sucking air.

If necessary, it may further include a support for supporting a suction pipe connected to the suction device. The support may be appropriately selected by those skilled in the art as needed. It is also possible for the operator to hold and support the suction pipe directly. The suction pipe connected to the suction device may be configured by using an L-shaped elbow so that a separate support body is not required.

In the water removal system, a groove may be formed by excavating from the rooftop to the insulation layer in the concrete and removing the insulation from the portion. As the groove is formed in the insulation layer, water that has soaked in the insulation is collected into the groove. Since the heat insulating material is pressed by the concrete load on the heat insulating material, water is collected in the hole formed in the heat insulating material. (See Figures 1A and 1B)

Water introduced into the groove formed in the insulation is sucked into the suction device together with the air. When water is sucked and removed by the suction device, the water inside the insulation is collected into the groove by the pressure of the concrete load on the insulation.

On the other hand, the suction device is a device such as a vacuum cleaner, which has a vacuum force capable of sucking the air. A general ventilator is insufficient to suck water accumulated in the groove of the insulation because of insufficient air suction force, and since the pump is a device that needs to be continuously supplied with water to remove the leaking water as in the present invention. Not suitable for Therefore, an air suction device having a superior suction power than a general ventilator is preferable as the suction device according to the present invention. Preferably, since the output of the suction device can be used without any problem if it is 1 horsepower or more, the suction device can be selected as necessary. On the other hand, in the case where the output of the suction device is 10 horsepower or more, the effect of moisture absorption does not change significantly even if the output increases further. (See FIGS. 2B and 3B)

In addition, a general hose can be used as the suction pipe in the water removal system according to the present invention. There should be a gap between the groove formed in the rooftop and the suction pipe which is a passage for removing the water or water accumulated in the groove. This is because water accumulated in the grooves is not removed as water is pumped out of the water pump, but water leaked from the heat insulator is sucked into the suction device together with the air.

It may further include a support for supporting a suction pipe connected to the suction device. The support is not particularly limited and may be appropriately selected by those skilled in the art as needed. It is also possible for the worker to hold and support the suction pipe by hand, or to install a holder for the support.

The present invention can also provide a method for removing moisture that permeates the roof of a building using the moisture removal system. When the suction pipe (hose) is connected to the suction device and operated in the groove formed on the rooftop, water is discharged together with the air. (See Figures 2A and 3A)

The amount of water discharged depends on the condition of the rooftop or the output of the intake system, but in general, about 200 l on the rooftop for 30 minutes with one inhaler with a power of 1 horsepower on the rooftop of a building ten years after construction. You can remove the water. On average, 800 l of water can be removed from a roof of 100 m ² .

In the present invention, in addition to the water removal system, by using a drying system inside the rooftop, the rooftop floor can always be kept dry and dry.

The water removal system removes the water inside the rooftop, forms a passageway of a predetermined length in the insulation layer inside the rooftop, and installs an air vent at one end of the passageway, and soaks into the rooftop. The water can be collected into the grooves and then removed by the ventilator to dry the rooftop (see FIG. 4).

In general, the heat insulating material installed on the rooftop of a building is a foamed heat insulating material, for example, styrofoam in general, such a styrofoam has a property of absorbing the water that sinks into the building floor. After a year or so after the construction of the building, the rooftops come into contact with water due to rain or snow, and some of the water penetrates into the rooftops. This soaked water is mainly absorbed by the insulation.

The soaked water freezes in winter and expands in volume causing cracks in the rooftops. In summer, the water vapor pressure may cause volume expansion or oxidation of the bottom inner wall.

When the bottom is excavated to form a groove in the heat insulator to remove the water that penetrates the inner wall of the rooftop, a surprising amount of water accumulates therein. In other words, the water is collected into the groove of the insulation by the pressure of the building floor. Such insulation is to be a moisture passage in connection with the removal of moisture. Therefore, by forming a groove in the heat insulator, the water collects, thereby removing the accumulated water, thereby removing moisture from the rooftop. In addition, when the suction is attempted by using the suction device having the air suction force, the suction power of the suction device serves to squeeze out the water permeated inside the heat insulating material can efficiently remove the water.

The water removal system according to the present invention uses this principle.

In addition, by installing a fan on both sides of the air and moisture moving passage formed by creating a groove in the heat insulating material can be removed in the long term to dry the inside of the rooftop floor.

Water removal system of the rooftop floor according to the present invention is very efficient when installed along with the renovation of the building.

Hereinafter, the present invention will be described in more detail with reference to Examples.

Example 1 Rooftop Moisture Removal System

The water removal system according to the present invention was installed on the floor of the roof of the apartment in Ilsan-si, Gyeonggi-do, where there are two 35-pyeong apartments on one floor.

First, as shown in Figure 7, on the rooftop, a hole having a diameter of 9cm with a concrete cutting machine was removed to remove the concrete of the floor and to remove the insulation inside to form a groove. Eight such grooves were formed.

It was possible to visually see the water seeping out of the removed insulation, and within one minute of cutting the insulation was filled with water.

As a suction device, a 15 cm diameter hose was connected as a suction pipe to an air suction machine (High Tech Co., Ltd .; 1 horsepower motor) having an output of 1 horsepower. After starting the machine the hose was taken into the groove of the concrete. The amount of water intake differed depending on how the hose was brought into contact with the groove.

When the hose (suction tube) was brought into close contact with the groove so that the groove was completely blocked, no water was sucked in.

When air is allowed to flow in the hoses and grooves, the water is sucked in and the water is discharged through the suction device. Water that had accumulated inside the insulation was sucked at the same time as air was sucked in. (See FIGS. 3A and 3B) In order to observe the degree of water absorption, the worker directly tried to inhale water while supporting the hose, which is the suction pipe.

In the other hole, the hose was assisted with a square support so that the hose did not shake.

Inhalation was attempted for 30 minutes with the power of 1 horsepower, and about 200 liters of water were discharged from each groove. That is, about 1600 liters of water were discharged. This amount of water was a tremendous amount exceeding the amount of water generally thought. As a result, it was found that a large amount of water permeated the floor of the building roof.

Example 2 Water Removal System of Rooftop

On the roof of an apartment in Sanggye-dong, Seoul As in Example 1, the water inside was removed by a moisture removal system. In this example, a total of 16 holes were drilled to remove water inside the rooftop. On average, 150 liters of water were discharged from each hole.

As in the above embodiment, when water is removed from the inside of the rooftop by the water removal system according to the present invention, and when the water drying system as shown in FIG. 4 is used, it is very efficient to dry the rooftop and is permanently dried. It has the advantage of maintaining state.

As seen in the above example, the amount of water permeated inside the rooftop was much higher than generally thought. Therefore, it can be seen that the repair work on the roof of the building cannot be effective unless the water accumulated on the rooftop is removed as in the above embodiment. Thus, it can be seen that there is a great need to directly remove the water inside the rooftop as in the above embodiment.

When the water removal system of the rooftop floor according to the present invention is used, the rooftop floor can be effectively removed and the rooftop floor can be dried. When the system is applied, the durability of the rooftop of the building can be improved, and the use of the system in the rooftop repair can increase the efficiency of the repair work and improve the durability of the building.

Claims (3)

A groove formed on the rooftop to be connected to the inner portion of the insulation and formed by removing the insulation; A suction pipe for sucking moisture from the groove; And A suction device connected to the suction pipe; The suction pipe is a water removal system, characterized in that arranged to create a gap in which air can be introduced between the groove. The water removal system according to claim 1, wherein the suction device is an air suction device capable of generating a vacuum force. The water removal system according to claim 1, wherein the output of the suction device is 1 horsepower or more.