KR20040016004A - Method of construction for waterproof for connection part of construction structure - Google Patents

Abstract

PURPOSE: A waterproofing method for a joint of a building structure is provided to prevent an inflow of rainwater and to improve the appearance as a whole. CONSTITUTION: The waterproofing method for a joint of a building structure comprises the steps of: filling up a crack in an upper mortar layer(300) of a joint with sealants injected at high pressure from a pipe connected to a pump; forming primary and secondary spaces in the middle of the joint by removing a mortar layer(300), a waterproof layer and a concrete structure(100) from the appointed distance; applying adhesives(131) in the primary space formed by the removed concrete structure(100); placing an architectural oil caulking member(140) on the upper side of the adhesives(131) to fill up the primary space with the architectural oil caulking member(140); placing a mortar layer(310) on the architectural oil caulking member(140) to fill up the secondary space with a new mortar layer(310); and fixing one end of a cover(400) to the existing mortar layer(300) and installing the other end of a cover(400) to intersect on a new mortar layer(310).

Description

Method of construction for waterproof for connection part of construction structure}

The present invention relates to a waterproofing method of the joint portion of a building structure, and more particularly, in the waterproofing method for preventing rainwater from flowing into the building structure while a crack is generated in the building structure, the external aesthetics can be made good. The present invention relates to a waterproofing method of a joint portion of a building structure to effectively solve the problem of rainwater flowing into the building structure.

In general, the building structure is composed mostly of concrete structures or stone structures, in particular, it is composed of a concrete structure, which is a general building material rather than a stone structure, these building structures are cracked due to various problems over time.

That is, in the case of stone structures, cracks occur due to problems in the construction method and torsion due to external force and insufficient strength of building materials, and in the case of concrete structures, concrete which is a mixture of cement, sand, gravel, and water As time passes, cracks occur due to shrinkage caused by evaporation of water.

And when rainwater flows into these cracks, the rainwater penetrates deeper into the structure by capillary action, further expanding the cracks.

Therefore, leakage occurs, which eventually leads to a decrease in the insulation effect of the structure over time, and even collapse of the structure.

Meanwhile, FIG. 1 illustrates a conventional building structure in which waterproofing is performed. First, the concrete structure 10 is formed on one side and the other side, and at this time, the joint portions 11 of the concrete structure 10 formed on one side and the other side. In order to maintain a constant distance to the) is to leave a space in consideration of the expansion or expansion of the concrete structure 10 by the external environment.

And the joint portion 11 is to install a thermal insulation material 12, etc., on the upper surface of both concrete structures 10 to form a waterproof layer 20 using a liquid or sheet, the upper surface of the waterproof layer 20 In order to protect the waterproof layer 20 is to form a mortar layer 30 made of sand and cement.

On the other hand, when both concrete structures 10 are repeatedly stretched and expanded in a state in which waterproof construction is performed on the concrete structure 10 as described above, the concrete structure 10 is severely cracked by the joint part 11. Although it is possible to prevent the mortar layer 30 is installed on the upper surface of the concrete structure 10, the crack 50 is generated within a limited range around the joint portion 11 as the rain water is cracked into the crack 50 site. There was a problem of leaking into the concrete structure 10 and the thermal insulation 12 after it is introduced.

Therefore, when the crack 50 occurs as described above, the sealing material (not shown in the drawing), which is ejected at a high pressure through a pipe connected to the pump, is filled in the crack 50 to block the cause of leakage, and the thermal insulation material 12 ) And prevents the strength of the concrete structure 10 from weakening.

In addition, in the case of the mortar layer 30 which is located directly above the joint portion 11 is affected by the expansion and expansion of the concrete structure 10, since the crack 50 may occur again, the joint portion 11 1) Install the jaw portion 40 using concrete or brick on one side and the other portion of the upper surface of the mortar layer 30, and install a cover 41 made of stainless steel or copper plate on the upper portion of the jaw portion 40. I try to prevent it as much as possible.

However, in the conventional case as described above, even if a new crack occurs in the mortar layer 30 positioned above the joint part 11, the rainwater may be prevented from flowing into the new crack by the jaw portion 40 and the cover 41. However, if the crack occurs on the outside of the jaw portion 40 and the crack is connected to the newly formed crack inside the jaw portion 40, rainwater flows into the concrete structure 10 and the thermal insulation 12 is damaged, and the concrete structure There was a problem that the strength of (10) was lowered.

Therefore, an object of the present invention is to solve the above problems, even if a crack occurs in the mortar layer of the concrete structure according to the expansion and expansion of the concrete structure is rain water is leaked into the interior of the concrete structure through the cracks generated It is to provide a waterproofing method for joints of building structures that can effectively prevent them and improve the overall appearance.

The object of the present invention is a pump and a crack on the crack generated in the mortar by expansion and expansion of the concrete structure in the waterproofing method of the joint structure of the concrete structure and the waterproof structure and the mortar layer composed of the thermal insulation is installed on the joint portion The process of filling the seal material with cracks by connecting the connected pipes, and the process of forming the first and second space parts by removing the mortar layer, the waterproof layer and the concrete structure by a predetermined distance from the left and right with a certain depth around the joint part. And, applying an adhesive to an inner surface of the first space portion of the removed concrete structure, and filling a first space by introducing a building oil caulking material into the top surface of the applied red glutinous agent, and a top surface of the building oily coaching agent. The process of placing a new mortar layer in the second space part, and forming a cover consisting of two One end of the cover is fixed to the existing mortar layer, and the other end of the cover is achieved by waterproofing the building structure in a process of being installed to cross each other at the center of the new mortar layer.

The present invention can prevent rainwater, etc. from entering the cracks generated in the new mortar layer by the cover when the crack occurs in the new mortar layer around the joint portion of the concrete structure and the concrete structure will be stretched and expanded When the construction-based caulking material filled in the first space of the concrete structure is stretched and expanded together with the concrete structure, cracks do not occur, and cracks generated in the existing mortar layer are connected to the joint part of the concrete structure or the cover functions. Even if rainwater flows into the new mortar layer without being able to exert, it is possible to effectively prevent rainwater from entering into the joint area by the oil-based caulking material for construction, and also to improve the overall appearance, thereby achieving the above object. You can do it.

1 is a sectional view showing main parts of a building structure in which a conventional waterproofing operation is performed;

Figure 2 is a sectional view showing the main part illustrating a state in which a sealant is filled in the crack portion of the building structure.

3, 4, 5, 6, 7 is a cross-sectional view showing the main step by step illustrating the waterproofing process of the building structure according to the present invention.

Explanation of symbols for the main parts of the drawings

100: concrete structure 110: joint portion

130: first space portion 131: adhesive

140: oil-based caulking material for construction 210: the second space

300, 310: mortar layer 400: cover

Hereinafter, with reference to the accompanying drawings, the technical configuration and operational effects as a preferred embodiment that can effectively achieve the features of the present invention will be described.

That is, Figure 2 is a cross-sectional view of the main portion illustrating the state filled with the sealing material after the crack is generated in the mortar layer and the concrete structure according to the present invention, Figure 3 illustrates a state in which the space portion is formed in the concrete structure and the waterproof layer and mortar layer One is a sectional view of the main part, Figure 4 is a sectional view showing the main part exemplified the state that the adhesive is applied to the inner surface of the space portion, Figure 5 is a sectional view showing the main part exemplified the state filled with the construction oil-based caulking material on the upper surface of the adhesive, Figure 6 Fig. 7 is a sectional view showing the main parts of the planetary caulking material in which a new mortar layer is formed, and FIG.

As exemplified in the present invention, in the waterproofing method of the joint portion of a building structure in which the waterproof layer 200 and the mortar layer 300 are formed on the upper portion of the concrete structure 100 maintaining the joint portion 110 at regular intervals,

A conventional first step of filling the crack 500 formed in the mortar layer 300 above the joint portion 110 with the sealing material 510 ejected at a high pressure from a pipe connected to the pump; The first and second space parts 130 and 210 are removed by removing the mortar layer 300, the waterproof layer 200, and the concrete structure 100 by a predetermined distance from the left and right sides with a predetermined depth around the joint part 110. A second step of forming; A third step of applying the adhesive 131 to the inner surface of the first space 130; A fourth step of introducing the building oily caulking material 140 into the upper surface of the applied red chopped 131 so that the building oily caulking material 140 is filled in the first space 130; A fifth process of placing a new mortar layer 310 on the upper surface of the building oil caulking material 140 filled in the first space part 130 so that the new mortar layer 310 is filled in the second space part 210; ; The sixth process of configuring the cover 400 consisting of two, one end of the cover 400 is fixed to the existing mortar layer 300, and the other end of the cover 400 is installed so as to cross each other at the center of the new mortar layer (310) It is characterized in that the waterproofing method of the joint portion of the building structure, including.

In the figure, reference numeral 120 is a thermal insulation material installed on the joint portion 110 of the concrete structure 100.

The present invention effectively prevents rainwater from flowing into the concrete structure 100 while rainwater leaks through the cracked portion even when a crack occurs in the mortar layer 300 according to the expansion and expansion of the concrete structure 100. It is to be done.

That is, the illustrated figure is a step by step illustrating the waterproofing method according to the present invention, Figure 2 is a cross-sectional view of the main portion illustrating a state filled with the sealing material after the crack occurs in the mortar layer and the concrete structure.

Wherein the crack 500 formed in the mortar layer 300 is to be concentrated in the site located above the joint portion 110 of the concrete structure 110, rather than evenly formed throughout the mortar (300) layer, When the crack 500 is left as it is, rainwater is introduced through the crack 500, and the rainwater eventually flows into the interior of the concrete structure 100 and the thermal insulation 120, thereby reducing the thermal insulation effect and reducing the concrete structure ( The durability of 100) is deteriorated.

Therefore, when the crack occurs in the mortar layer 300 as described above, the sealing material 510 is high-pressure ejected to the cracked portion 300 through the Makine construction, which is a well-known construction technique, so that the sealing material is filled in the cracked portion. Step 1 will be performed.

After the sealing material 510 is filled in the crack 500, the second process of removing a portion of the concrete structure 100 together with the mortar layer 300 and the waterproof layer 200 as illustrated in FIG. 3. This is performed, wherein the removed portion is about 100 mm in width, 3 to 5 mm in depth around the joint portion 111 of the concrete structure 100.

Therefore, the first space portion 130 formed by the concrete structure 100 and the second space portion formed by the waterproof layer 200 and the existing mortar layer 300 are formed on the joint portion 110 side of the concrete structure 100. It is formed to be connected to each other.

Thereafter, as illustrated in FIG. 4, a third process of applying the adhesive 131 to the inner surface of the first space 130 formed by the concrete structure 100 is performed, as illustrated in FIG. 5. The building oily caulking material 140 is inserted into the first space portion, and the building oily caulking material 140 is firmly coupled to the concrete structure 100 by the adhesive material 131, thereby maintaining a constant thickness. Since the upper surface of the ash 140 does not deviate from the first space portion 130, a fourth process is performed so as to be filled before the second space portion 210 formed by the existing mortar layer 300.

Here, the building oil-based caulking material 140 is mixed with natural or synthetic dry oil, resin, asbestos, calcium carbonate, etc., and the surface reacts with the oxygen in the covalent weight to form a film, and the inside does not harden, flexibility and viscosity for a long time It is a normal sealing material to hold.

In addition, as described above, a fifth process of placing a new mortar layer 310 in the second space part 210 positioned on the upper surface of the first space part 130 by filling the building oil caulking material 140 for construction is performed. It is done.

Thereafter, the upper surface of the new mortar layer 310 is bent toward the lower side of each one is provided with a cover 400 consisting of two components configured in a symmetrical shape, each bent portion of the existing mortar layer 300 The sixth process is performed to be positioned on the upper surface of the new mortar layer 310 in a state in which it is fixed to and opposite to each other.

Therefore, when the waterproof construction of the building structure is carried out through the above-described process, when the concrete structure 100 is expanded and expanded, the oil-based caulking material 140 for building is also stretched or expanded together, so that no cracks are generated because the crack does not occur. That is, the building oil caulking material 140 can effectively block the movement toward the joint portion 111 of the structure 100, and even if a crack occurs in the new mortar layer 310, rainwater is introduced by the cover 400. It can be prevented, and the overall aesthetics can be improved.

As described above, the present invention can prevent rainwater, etc., from entering into the cracked portion generated in the new mortar layer by the cover even if a crack occurs in the new mortar layer around the joint portion of the concrete structure. When this expansion and expansion is carried out, the building oily caulking material filled in the space of the concrete structure is expanded and expanded together with the concrete structure so that no crack is generated, so that the crack portion generated in the existing mortar layer is moved toward the joint portion of the concrete structure. Even if rainwater flows into the cracks formed in the new mortar layer due to the cover not functioning properly, it can be effectively blocked by the oil-based caulking material for construction to prevent rainwater from entering the joints. It can be good.

Claims (1)

In the waterproofing method of the joint portion of the building structure in which the waterproof layer 120 and the mortar layer 300 is formed on the upper portion of the concrete structure 100 to maintain the joint portion 110 at regular intervals, A first known process of filling a seal material 510 ejected at a high pressure from a pipe connected to a pump into a crack 500 formed in the mortar layer 300 above the joint portion 111; A second process of forming the first and second space parts by removing the mortar layer 300, the waterproof layer 200, and the concrete structure 100 by a predetermined distance from the left and right sides with a predetermined depth around the joint part 111; A third process of applying the adhesive 131 to the inner surface of the first space 130 formed by the removed concrete structure 100; A fourth step of inserting the building oily caulking material 140 into the upper surface of the applied red chopped 131 and filling the building oily caulking material 140 in the first space 130; A fifth process of placing a new mortar layer 310 on the upper surface of the building oil caulking material 140 so that the new mortar layer 310 is filled in the second space part 210; By configuring two covers 400, one end of the cover 400 is fixed to the existing mortar layer 300, and the other end of the cover 400 is installed so as to cross each other on the center of the new mortar layer (310) 6 step; Waterproofing method of the joint area of the building structure comprising a.