KR101117482B1 - capillary tube type deaeration device, and waterproofing or floor construction methods using thereof - Google Patents

Abstract

The present invention relates to a capillary outgassing method, and a waterproofing or flooring construction method using the same.

Method for forming a waterproof or flooring structure using the capillary degassing device of the present invention, 1) forming a hole having a diameter of 6 to 30 mm per 1 to 50 m 2 on the concrete or mortar; 2) installing a capillary deaerator in said hole and fixing said capillary deaerator with urethane or epoxy sealant; 3) forming a coating layer by applying a waterproofing and bottom material on top of the concrete or mortar, so that a part of the capillary deaerator may be exposed to the outside; And 4) cutting the exposed capillary to have the same height as the coating layer. It is made, including.

The waterproof or flooring method of the present invention has a function of releasing a gas or water vapor by providing a capillary degassing device inside a concrete or mortar, unlike a waterproofing method using a conventional externally exposed type degassing device. . In addition, the waterproofing or flooring construction method of the present invention, unlike the waterproofing or flooring construction method using an external exposure type degassing, has the advantage of high space utilization.

Description

Capillary tube type deaeration device, and waterproofing or floor construction methods using

The present invention relates to a capillary outgassing method, a waterproofing or flooring construction method using the same.

The present invention relates to an invention in which the capillary degassing apparatus is installed inside concrete or mortar, thereby increasing the external space utilization while performing a gas or water vapor discharge function of concrete or mortar which is the original purpose of the capillary degassing apparatus.

In terms of comfort, durability and efficient use of space in general buildings, waterproof construction of rooftops, dustproof flooring of underground parking lots, flooring of multi-purpose stadiums such as basketball courts and tennis courts are one of the important processes, and their proportion in modern times has increased. I'm going.

Conventional waterproofing methods for waterproofing roofs of buildings include waterproofing sheets that adhere synthetic polymer sheets such as rubber asphalt and vinyl chloride resin to the surface of concrete and mortar with adhesive, waterproofing polyurethane rubber, and fastening elastomer waterproof flooring. Coating film waterproofing;

Sheet waterproofing is a work that connects the sheets formed in a certain shape in the field, so waterproof construction is possible, so that a certain film thickness is secured and curing / curing period is unnecessary, so the construction period is not required. There are many cases of leaks.

In addition, since the coating waterproof is applied to the liquid and waterproof floor materials in the field, it is possible to form an integral coating layer without a joint such as sheet waterproofing, and has the advantage of excellent adhesion to the concrete top. However, swelling of the coating layer frequently occurs due to steam or gas discharge of concrete or mortar in the direct sunlight. In particular, the underground construction of the underground parking lot of the building, or the floor construction of multi-purpose ballparks such as basketball courts and tennis courts, includes liquid flooring materials including epoxy-based flooring, polyurethane flooring, and fast-setting elastomer flooring. One or more species are selected and constructed on site to form an integrated coating.

However, in the construction method as described above, the concrete or mortar 101 constructed as shown in FIG. 1 is not completely dried, and some residual water vapor or gas is released. However, the released water vapor or gas is collected in the coating layer 102, weakens the adhesive force between the coating layer 102 and the concrete or mortar 101, the swelling phenomenon occurs. The swollen coating layer 102 is less durable even in weak external stimuli, increasing the likelihood of departure from concrete or mortar. When the coating layer 102 is separated, in order to compensate for this, additional construction is performed, which causes a problem in that the cost of waterproofing or flooring construction of the building increases.

In order to prevent the coating layer from swelling, the waterproof or flooring structure 200 as shown in FIG. 2 may allow the external exposed type degassing apparatus 203 to be concrete or mortar so as to discharge gas or water vapor without introducing rain from the outside. It is arrange | positioned at 201, and swelling of the coating layer 202 can be prevented. However, since the externally exposed type degassing apparatus 203 occupies a portion of an area outside the waterproofing or flooring structure, there is a disadvantage in that the external space is limited.

Therefore, after forming the coating layer on the concrete or mortar in the floor construction of the building, swelling of the coating layer occurs due to the gas or water vapor generated from the concrete or mortar, thereby preventing the adhesion of the coating layer from weakening There is a need. In addition, there is a need for a method in which space utilization can be increased by using a degassing apparatus that does not protrude outside the coating layer, but a construction cost is low.

An object of the present invention for solving the problems of the prior art described above is to create a coating layer on the concrete or mortar, and to easily remove water vapor or gas generated in the concrete or mortar to prevent swelling of the coating layer. Yet, to provide a capillary deaerator that is not exposed to the outside so as to increase space utilization and a waterproofing or flooring construction method using the same.

Capillary degassing device according to a feature of the present invention for achieving the above object is formed in the center space portion and the lower body is made of an open structure; And a capillary tube extending upward from the body portion. It includes, characterized in that the capillary is connected to the upper portion of the body form a funnel shape.

The inner diameter of the body portion is 5 to 20 mm, the inner diameter of the capillary is preferably 0.1 to 1 mm.

The length of the body portion is 10 to 100 mm, the length of the capillary is preferably 10 to 50 mm.

The body portion of the capillary degassing member may have one or more through holes in the side wall.

Preferably, the capillary deaerator is plastic.

In addition, the waterproofing or flooring construction method according to an aspect of the present invention, 1) forming a hole having a diameter of 6 to 30 mm per 1 to 50 m 2 on the concrete or mortar; 2) installing a capillary deaerator in said hole and fixing said capillary deaerator with urethane or epoxy sealant; 3) forming a coating layer by applying a waterproofing and bottom material on top of the concrete or mortar, so that a part of the capillary deaerator may be exposed to the outside; And 4) cutting the exposed capillary to have the same height as the coating layer. It is made, including.

Capillary degassing of step 2) is preferably made of a capillary tube having an inner diameter of 5 ~ 20 mm, a 0.1 ~ 1 mm inner diameter protruding to the upper portion of the body portion.

The body portion of the capillary degassing member may have one or more through holes in the side wall.

The waterproofing and bottom material of step 3) is epoxy, polyurethane or elastomer.

After applying the upper part with the waterproof and bottom material in step 3), the method may further include cutting the capillary tube exposed out of the upper surface.

In addition, the waterproof or flooring structure according to an aspect of the present invention, the concrete or mortar layer 11 is provided with a plurality of holes 13 having a diameter of 6 to 30 mm per 1 to 50 m 2, the plurality of holes ( 13, a capillary degassing device 20 is provided, and the empty space of the installed capillary degassing device 20 and the hole 13 of the concrete or mortar layer is filled with urethane or epoxy sealant 14, and the capillary pipe 21 is The coating layer 12 is formed on the upper layer of the capillary tube 21 is provided so as not to be exposed to the outside of the surface of the coating layer 12.

The capillary degassing body has a space portion formed in the center and the body portion is made of a lower open structure; And a capillary tube extending upward from the body portion. It includes, and the capillary is connected to the upper portion of the body to form a funnel shape.

The body portion of the capillary degassing member may have one or more through holes in the side wall.

According to the waterproofing or flooring construction method of the present invention, unlike the conventional waterproofing or flooring construction method using the external exposure type degassing apparatus, the capillary degassing apparatus which can discharge gas or steam without introducing liquid such as water is concrete. Alternatively, it may be provided inside the mortar to release gas or water vapor to the outside. In addition, the waterproofing or flooring construction method of the present invention, unlike the waterproofing or flooring construction method using an external exposure type degassing apparatus, the capillary tube of the capillary degassing apparatus is not exposed to the outside, thereby improving space utilization. In addition, the capillary degassing can be made of plastic, so manufacturing and construction costs are low.

In addition, the capillary degassing apparatus of the present invention is a method of forming a hole in the bottom of concrete or mortar, and the capillary degassing apparatus is installed therein, and the construction method is simple.

Due to the advantages of high space utilization, easy construction method, inexpensive capillary degassing material, etc., which are the features of the present invention mentioned above, the present invention can be usefully used in the field of waterproofing or flooring structure construction.

The capillary degassing apparatus of the present invention is provided with a capillary tube through which degassing can discharge water vapor or gas without introducing liquid such as water. The capillary of the capillary degassing apparatus of the present invention may be installed so as not to be exposed to the outside of the coating layer to improve the utilization of the external space.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

First, the capillary degassing apparatus according to an embodiment of the present invention will be described in detail with reference to FIG. 3.

As shown in FIG. 3, the capillary degassing apparatus 20 according to an embodiment of the present invention includes a capillary tube 21 and a body portion 22 from which the capillary tube protrudes.

The cross-sectional shape of the capillary tube 21 and the body portion 22 is not particularly limited and may be square, triangular or circular, but in this embodiment, a circular one is used.

The capillary tube 21 preferably has an inner diameter of 0.1 to 1 nm, and the trunk portion 22 preferably has an inner diameter of 5 to 20 mm. The inner diameter range of the body portion 22 is of a suitable size to be placed in the concrete or mortar hole. If the body portion 22 exceeds 20 mm, the size of the hole formed in the concrete or mortar is widened, which may increase the possibility of damage to the upper portion by external stimulation, which is not preferable.

In addition, when the inner diameter of the capillary tube 21 is less than 0.1 mm, it is not only difficult to manufacture the capillary tube 21 having an inner diameter of less than 0.1 mm, and the capillary tube 21 may be blocked by various foreign substances, which is not preferable. However, when it exceeds 1 mm, it is possible to discharge the gas or moisture which is the purpose of the present invention, on the contrary, it is not preferable because the water can be introduced into the tube to achieve the waterproof purpose.

The length of the body portion 22 is 10 to 100 mm, the length of the capillary tube 21 is preferably 10 to 50 mm, but is not particularly limited as long as it can easily discharge moisture or gas.

In addition, the body portion of the capillary degassing unit is one or more through-holes 23 side wall so that water vapor or gas discharged from the concrete or mortar can be easily introduced into the body portion 22 to be discharged into the capillary tube 21 It may be provided in. The shape and size of the through hole is not particularly limited.

The capillary deaerator 20 may be made of a plastic material having low manufacturing and management costs.

Figure 5 shows the waterproofing or flooring construction method for installing a capillary degassing apparatus in concrete or mortar according to an embodiment of the present invention.

First, after constructing concrete or mortar 11 formed in the building, a hole 13 is formed at a predetermined distance using a drilling tool. Preferably, the holes 13 having a diameter of 6 to 30 mm are formed per 1 to 50 m 2. If the space for forming the hole 13 is less than 1 m 2, there are many holes generated in the building, which increases the cost of construction and may affect the durability of the building. It is difficult to prevent swelling of the coating layer, which is an object of the present invention.

Next, a capillary deaerator 20 is installed in the hole 13 and the urethane or epoxy sealant 14 is filled so that the capillary deaerator is fixed. The urethane or epoxy sealant also serves to fix the capillary deaerator so that the capillary deaerator does not move, but also serves to prevent unevenness in the bottom surface in the subsequent process according to the voids of the hole and the capillary deaerator. The capillary degassing unit 20 provided with the capillary tube is a body portion 22 having an inner diameter of 5 to 20 mm, and a capillary tube 21 having an inner diameter of 0.1 to 1 mm that protrudes upward from the body portion 22. Consists of. In addition, the capillary degassing device may be provided with a through-hole 23 in the body portion to facilitate the discharge of moisture or gas discharged from the concrete or mortar (11).

Next, the coating layer 12 is formed on the concrete or the mortar 11 by using the waterproof and the bottom material, so that a part of the capillary tube of the capillary deaerator may be exposed. The waterproof and bottom materials may be formed of a coating layer using epoxy, polyurethane, or elastomer, and the coating layer 12 may be formed to expose a capillary tube on the top. The exposed capillary is preferably cut into the exposed capillary so that after the waterproofing and bottom material is dried to form the coating layer 12, it becomes a flat bottom.

In the waterproof structure constructed through the above process, even if rainwater penetrates into the capillary, gas or water vapor generated from concrete or mortar is discharged into the capillary, even though rainwater does not penetrate into the trunk due to the pressure inside the body. This structure of the present invention can increase the durability of the coating layer, it is economical without generating additional construction costs due to the coating layer damage.

1 is a view showing a problem that when the coating layer is formed on the conventional concrete or mortar, the coating layer is swelled by the gas or water vapor generated in the concrete or mortar.

2 is a perspective view of a waterproof structure in which an externally exposed degassing apparatus is disposed in order to prevent swelling of a conventional coating layer.

3 relates to a capillary degassing apparatus according to an embodiment of the present invention.

Figure 4 shows that the through-hole is provided on the side surface of the capillary degassing apparatus according to an embodiment of the present invention.

Figure 5 shows the waterproofing or flooring construction method for installing a capillary degassing apparatus in concrete or mortar according to an embodiment of the present invention.

Claims (13)

A body part having an inner diameter of 5 to 20 mm and having a space formed at a center thereof and having an open structure at a lower part thereof; And a capillary tube having an inner diameter of 0.1 to 1 mm that protrudes upward from the body portion. Including; Capillary degassing, characterized in that the capillary connected to the upper portion of the body forms a funnel shape. delete The method of claim 1, The length of the body portion is 10 ~ 100 mm, capillary degassing characterized in that the length of the capillary is 10 ~ 50 mm. The method of claim 1, Capillary degassing characterized in that the body portion of the capillary degassing has at least one through hole in the side wall. The method of claim 1, And the capillary deaerator is plastic. 1) forming a hole having a diameter of 6 to 30 mm per 1 to 50 m 2 on the concrete or mortar; 2) installing a capillary deaerator in said hole and fixing said capillary deaerator with urethane or epoxy sealant; 3) forming a coating layer by applying a waterproofing and bottom material on top of the concrete or mortar, so that a part of the capillary deaerator may be exposed to the outside; And 4) cutting the exposed capillary to have the same height as the coating layer; Waterproofing or flooring construction method comprising a. The method of claim 6, Capillary degassing of step 2) is a waterproof or flooring construction method, characterized in that the inner diameter of the body portion 5 ~ 20 mm, the inner diameter of the protruding upper portion of the body portion is 0.1 ~ 1 mm capillary. The method of claim 6, Waterproofing or flooring construction method characterized in that the body portion of the capillary degassing has at least one through hole in the side wall. The method of claim 6, Waterproofing and flooring material of step 3) is a waterproofing or flooring construction method, characterized in that at least one selected from the group consisting of epoxy, polyurethane and elastomer. The method of claim 6, The method of claim 3, further comprising the step of applying the concrete or mortar top with waterproof and floor materials, and then cutting the capillary tube exposed to the concrete or mortar top. The concrete or mortar layer 11 is provided with a plurality of holes 13 having a diameter of 6 to 30 mm per 1 to 50 m 2, and a capillary degassing device 20 is provided in the plurality of holes 13. Filling the empty space of the capillary degassing 20 and the hole 13 of the concrete or mortar layer with a urethane or epoxy sealant 14, and includes a coating layer 12 formed on the upper layer of the capillary tube 21, Waterproofing or flooring structure provided so that the capillary tube (21) is not exposed to the outside of the surface of the coating layer (12). The method of claim 11, The capillary degassing body has a space portion formed in the center and the body portion formed of a lower open structure; And a capillary tube extending upward from the body portion. Including; Waterproofing or flooring structure, characterized in that the capillary is connected to the upper portion of the body to form a funnel. The method of claim 11, Capillary degassing characterized in that the body portion of the capillary degassing has at least one through hole in the side wall.

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