KR100542380B1 - Structure of Expansion Joint Filler for Concrete Slab, and Method for Carrying Out Thereof - Google Patents

Abstract

The present invention relates to a stretch joint structure for a concrete slab and a construction method thereof. More specifically, in the expansion joint structure and construction method for the concrete slab, the insulating joint expansion joint is installed on the upper part of the waterproof layer, the pressed concrete is poured and cured, and then cut a part of the pressed concrete at the upper part of the insulating expansion joint joint. A stretch joint structure and construction method for a concrete slab in which a backup material and a sealant are inserted into the same.

The present invention, in the concrete slab expansion joint structure for the protection of the waterproof layer on the roof of a building, etc., the thermal insulation material expansion joint 200 disposed in a grid on the upper portion of the waterproof layer 120; Pressed concrete 130 which is poured and cured together with a wire mesh 132 on top of the waterproof layer 120 and the insulating material stretching joint 200; After the hardening of the pressed concrete 130, the backing member 150 is inserted into the cutting unit 220 for cutting the pressed concrete 130 on the upper portion of the thermal insulation material expansion joint 200; And it provides a concrete slab expansion joint structure including the sealant 160 provided on the upper backing material 150 and the construction method of the concrete slab expansion joint.

Rooftop, Waterproof, Expansion Joint, Insulation, Backing, Sealant

Description

Structure of Expansion Joint Filler for Concrete Slab, and Method for Carrying Out Thereof}

1 is a view showing the construction of expansion joints and pressed concrete according to the conventional method,

2 is a view showing a construction state of the expansion joint for a concrete slab according to a preferred embodiment of the present invention,

Figure 3a to 3d is a view showing step by step the construction method of the expansion joint for a concrete slab according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: concrete slab 120: waterproof layer

130: pressed concrete 132: wire mesh

140: expansion joint 150: backup material

160: sealant 170: pressed brick

200: expansion and contraction joint 210: fixed member

220: cutting part

The present invention relates to a stretch joint structure for a concrete slab and a construction method thereof. More specifically, in the expansion joint structure and construction method for the concrete slab, the insulating joint expansion joint is installed on the upper part of the waterproof layer, the pressed concrete is poured and cured, and then cut a part of the pressed concrete at the upper part of the insulating expansion joint joint. A stretch joint structure and construction method for a concrete slab in which a backup material and a sealant are inserted into the same.

In general, when constructing a concrete slab on the roof of an apartment or building, the fine space occupied by water evaporating moisture in the concrete during curing of concrete mixed with cement, sand, gravel, and water There is a gap in the gap, and the heat of the atmosphere causes the concrete to shrink and expand, causing cracks from this gap. Therefore, in order to prevent water from penetrating into the building through such a crack construction of a perfect waterproof layer is essential.

As the waterproofing method for building roof slabs, there are methods such as asphalt waterproofing, sheet waterproofing, waterproofing of coating film, etc. These waterproofing methods are provided with a separate protective finish on the waterproofing layer to protect the waterproofing layer.

On the other hand, as a protective finish for protecting the waterproof layer, there are many methods to protect the waterproof layer by constructing the pressed concrete on the waterproof layer, and when constructing the pressed concrete, it is necessary to induce the construction of concrete to promote structural stability. Expansion joint fillers are installed at regular intervals.

The expansion joint absorbs the expansion and contraction of the pressed concrete according to the temperature change of the outside air, and prevents the pressed concrete from being lifted by the expansion and contraction, and prevents the transfer of the structural force by the expansion of the pressed concrete to the roof railing wall. It will serve to protect the waterproof layer.

Referring to the construction method of the expansion joint and the pressed concrete according to the conventional method as follows.

1 is a view showing the construction of expansion joints and pressed concrete according to the conventional method.

Construction of the expansion joint 140 and the pressed concrete 130 according to the conventional method constructs the waterproof layer 120 on the concrete slab 110 and the roof railing wall 112, and at regular intervals to protect the waterproof layer 120 The expansion joint 140 is installed to pour the pressed concrete 130. When placing the pressed concrete 130, the wire mesh (132) is laid to reinforce the strength of the pressed concrete 130.

On the other hand, the upper part of the expansion joint 140 is provided with a backup material (Back-up Material: 150), the upper part of the backup material 150, the sealant such as urethane (Urethane) to prevent water from seeping through the expansion joint 140 (Sealant: 160). In addition, the inner wall surface of the roof railing wall 112 constructs a pressing brick 170 to protect the waterproof layer 120.

Representative construction methods of such a stretch joint 140 is a reclamation method and filling method.

In the landfill method, after the construction of the waterproof layer 120 is completed, the expansion joint 140 is assembled and installed in a lattice shape, and then the wire mesh 132 is installed on the upper part of the waterproof layer 120 and the pressed concrete 130 is poured. It is a technique. On the other hand, the filling method after installing the waterproofing layer 110, the wire mesh 132 is installed and the pressed concrete 130 is poured and hardened, and then the groove for the expansion joint 140 is dug at every predetermined position. It is a method of filling caulking material into the groove.

However, the conventional expansion joint construction method has the following problems.

In the case of the reclamation method, since the expansion joint 140 is installed in a lattice form before the pressing concrete 130 is placed, and the expansion joint 140 must be fixed with a setting mortal so that the position of the expansion joint 140 does not change, the work is cumbersome. There was a problem that much labor and time was consumed.

In addition, the upper portion of the pressed concrete 130 for the drainage of the roof should form a constant gradient, since the cast concrete 130 is poured for each grid of the expansion joint 140, so the gradient for each grid is not constant so that the draft is poor. There was a problem that occurred.

In addition, even when the upper portion of the pressed concrete 130 forms a constant gradient, when the upper portion of the stretched joint 140 is exposed because the pressed concrete 130 does not sufficiently cover the stretch joint 140 due to the gradient formation, the sealant is exposed. There was a problem that the finishing of the expansion joint 140 and the pressed concrete 130 at the time of construction is not beautiful.

On the other hand, in the case of the filling method it is necessary to dig the hardened pressed concrete 130 to the upper portion of the waterproof layer 120 in order to install the expansion joint 140, there was a problem that can damage the waterproof layer.

In addition, in the case of fear of damage to the waterproof layer 120 as described above, when not fully dug to the bottom of the pressed concrete 130, the expansion joint 140 does not sufficiently absorb the stretching of the pressed concrete 130 pressed concrete (130) There was a problem that is not excited to protect the waterproof layer 120 is excited.

In order to solve the above problems, it is an object of the present invention to provide a concrete slab expansion joint structure and a construction method that can be installed even if the expansion joint installation work is easy and the working time is reduced and the working skill is not high.

In addition, an object of the present invention is to provide a concrete slab expansion joint structure and its construction method that is easy to form a gradient of pressed concrete and improved aesthetics after the work.

In addition, an object of the present invention is to provide a concrete slab expansion joint structure and construction method that can prevent the breakage of the waterproof layer in the work of cutting the hard pressed concrete and finishing the expansion joint construction.

In order to achieve the above object, the present invention, in the concrete slab expansion joint structure for the protection of the waterproof layer on the roof of a building, etc., the thermal insulation material expansion joint 200 is formed in a grid on the waterproof layer 120; Pressed concrete 130 which is poured and cured together with a wire mesh 132 on top of the waterproof layer 120 and the insulating material stretching joint 200; After the hardening of the pressed concrete 130, the backing member 150 is inserted into the cutting unit 220 for cutting the pressed concrete 130 on the upper portion of the thermal insulation material expansion joint 200; And it provides a concrete slab expansion joint structure including a sealant 160 provided on the top of the backing material (150).

In another aspect, the present invention, the concrete slab expansion joint construction method for the protection of the waterproof layer on the roof of a building, etc., (a) forming a lattice on the upper portion of the waterproof layer 120 to arrange the insulating joint expansion joint 200; (b) laying a wire mesh 132 on top of the waterproof layer 120 and the thermal insulation stretchable joint 200; (c) pouring the hardened concrete 130 on the upper portion of the waterproof layer 120 and the insulating material expansion joint 200 to harden it; (d) forming the cutting part 220 by cutting the pressed concrete 130 on the upper part of the insulating material stretching joint 200 after curing of the pressed concrete 130; (e) inserting the backup material 150 into the cutting part 220; And (f) provides a concrete slab expansion joint construction method comprising the step of inserting and finishing the sealant 160 on top of the backup material 150.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is a view showing a construction state of the expansion joint for a concrete slab according to a preferred embodiment of the present invention.

Construction method of the expansion joint according to the present invention, first construct a waterproof layer 120 on the upper portion of the concrete slab 110, and then press the concrete 130 after placing the insulating joint stretch 200 on the upper portion of the waterproof layer 120 Pour it. Next, after the pressing concrete 130 is cured, the pressing concrete 130 on the upper portion of the thermal expansion material stretching joint 200 is cut at a predetermined interval to form a cutting unit 220. Thereafter, the backup member 150 is inserted into the cutting unit 220 and the upper portion of the backup member 150 is finished with the sealant 160.

3A to 3D will be described in more detail the construction method of the expansion joint for concrete slab according to the present invention.

Figure 3a to 3d is a view showing step by step the construction method of the expansion joint for a concrete slab according to a preferred embodiment of the present invention.

As described above, the waterproof layer 120 is formed by applying a waterproof material having a predetermined thickness to the upper portion of the concrete slab 100 by asphalt waterproofing, sheet waterproofing, coating film waterproofing, or the like.

According to the construction method of the expansion joint for the concrete slab according to the present invention, as shown in Figure 3a, the insulating member expansion joint 200 is placed on top of the waterproof layer 120. Insulation expansion and contraction joint 200 is preferably used a material such as expanded polystyrene insulation, expanded urethane (Urethane) insulation, cyclopentane foam insulation. Since the foam insulation has a certain degree of elasticity as well as the insulation effect, there is an effect that can absorb the stretch of the pressed concrete.

Insulation expansion joint 200 is to replace the conventional expansion joint 140, the insulating material expansion joint 200 is disposed on the upper portion of the waterproof layer 120 to form a grid of a certain size. The width of the insulating expansion joint 200 is larger than that of the conventional expansion joint 140, and thus there is an advantage that does not need to form a grid exactly as the conventional expansion joint 140.

Insulation expansion joint 200 may be arranged without using a separate adhesive on the upper portion of the waterproof layer 120, but when the insulation expansion joint 200 is placed or pressed concrete 130 construction when stretching the insulation (200) In order to prevent the position of the c) from being changed, it is preferable to fix the stretch joint 200 to the upper portion of the waterproof layer 120 using the adhesive fixing member 210.

Although an adhesive or the like may be used as the fixing member 210, preferably, a double-sided adhesive tape is used in consideration of ease of operation. That is, one side of the double-sided adhesive tape is attached to the bottom surface of the heat insulating material expansion joint 200, and the other side of the double-sided adhesive tape is attached to the waterproof layer, thereby fixing the heat insulating material stretching joint 200 to the waterproof layer 120.

After fixing the insulating expansion joint 200 to the upper portion of the waterproof layer 120, as shown in FIG. 3b, the wire mesh 132 is installed and the pressed concrete 130 is poured.

Next, as shown in Figure 3c, the pressing concrete 130 of the upper portion of the thermal expansion material stretching joint 200 is cut to a predetermined width to form a cutting unit 220. Preferably, by marking the position of the expansion joint to be installed on the roof railing wall 112, etc. at the time of installation of the thermal expansion material expansion joint 200 to enable the cutting of the pressed concrete 130 at the correct position when forming the cutting portion 220. It is good.

When cutting the upper portion of the pressed concrete 130, when the blade of the cutting equipment (Blade) is in contact with the insulating expansion joint 200 can be recognized that the cutting is perfect, so the pressed concrete without damage of the waterproof layer 120 130 can be cut.

After this, as shown in FIG. 3D, the backing material 150 is inserted into the cutting part 220, and the upper part of the backing material 150 is finished with the sealant 160, and then the inner surface of the roof railing wall 112 is pressed brick. Stack 170 to finish the work.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, by using the insulating joint expansion joint, there is an effect that the unskilled workers can be easily installed without much time and manpower during installation of the expansion joint.

In addition, according to the present invention, since the placing part of the pressed concrete is not partitioned by the expansion joint when placing the pressed concrete, there is an advantage in that it is easy to form a gradient.

In addition, according to the present invention, there is an advantage of eliminating the risk of damaging the waterproof layer of the lower portion of the expansion joint when forming the cutting portion for inserting the backup material and sealant on the upper portion of the expansion joint.

Further, according to the present invention, there is an advantage that the aesthetics after the expansion joint construction is smooth.

Claims (8)

In the concrete slab expansion joint structure to protect the waterproof layer on the roof of a building, Insulation expansion joint 200 is formed in a grid on top of the waterproof layer 120; Pressed concrete 130 which is poured and cured together with a wire mesh 132 on top of the waterproof layer 120 and the insulating material stretching joint 200; After the hardening of the pressed concrete 130, the backing member 150 is inserted into the cutting unit 220 for cutting the pressed concrete 130 on the upper portion of the thermal insulation material expansion joint 200; And Sealant 160 provided on the backup material 150 Concrete slab expansion joint comprising a. The method of claim 1, The insulating material expansion joint 200 is a concrete slab expansion joint structure, characterized in that fixed to the waterproof layer 120 by an adhesive fixing member (210). The method of claim 2, The fixing member 210 is a concrete slab expansion joint structure, characterized in that the double-sided adhesive tape. The method according to any one of claims 1 to 3, The insulating material expansion joint 200, a concrete slab expansion joint structure, characterized in that made of any one of a foamed polystyrene insulation, a polyurethane foam (Urethane), a cyclopentane foam insulation. In the concrete slab expansion joint construction method for protecting the waterproof layer on the roof of a building, (a) forming a lattice on the upper part of the waterproof layer 120 and arranging the insulating material expansion joint 200; (b) laying a wire mesh 132 on top of the waterproof layer 120 and the thermal insulation stretchable joint 200; (c) pouring the hardened concrete 130 on the upper portion of the waterproof layer 120 and the insulating material expansion joint 200 to harden it; (d) forming the cutting part 220 by cutting the pressed concrete 130 on the upper part of the insulating material stretching joint 200 after curing of the pressed concrete 130; (e) inserting the backup material 150 into the cutting part 220; And (f) inserting and closing the sealant 160 on top of the backup material 150 Concrete slab expansion joint construction method comprising a. The method of claim 5, The insulation joint expansion joint 200 is a concrete slab expansion joint construction method, characterized in that fixed to the waterproof layer 120 by an adhesive fixing member (210) The method of claim 6, The fixing member 210 is a concrete slab expansion joint construction method, characterized in that the double-sided adhesive tape. The method according to any one of claims 5 to 7, The thermal insulation stretch joint 200, concrete slab expansion joint construction, characterized in that made of any one of polystyrene (Polystyrene) thermal insulation, polyurethane foam (Urethane) insulation, cyclopentane (Cyclopentane) foam insulation.

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