KR100837672B1 - Waterproof constructing method - Google Patents

Abstract

An unexposed double waterproof constructing method using a water-soluble film waterproof member is provided to reduce construction time and to improve waterproof performance by coating a first liquid water-soluble rubber asphalt added with hardening accelerating agent. An unexposed double waterproof constructing method using a water-soluble film waterproof member comprises the steps: inserting a center member(102) which is made of nonwoven fabric to a rubber asphalt and eliminating a release paper from a bottom surface of a rubber asphalt seat on which a ganister sand layer(103) is formed to adhere an adhesive surface(104) to a background surface; adhering other adhesive surface of the rubber asphalt seat to the background surface; adhering a first glass fabric(107) to an upper surface of a side end of the rubber asphalt seat to allow the rubber asphalt seat to be crosslinked by the first glass fabric; coating a first liquid water-soluble rubber asphalt on the first glass fabric with predetermined thickness for forming a damping unit(108) between the background surface and the rubber asphalt seat; attaching a second glass fabric(109) or porous unwoven fabric on the damping unit; coating the first liquid water-soluble rubber asphalt on the second glass fabric or unwoven fabric with predetermined thickness for forming a reinforcing layer(110); coating the first liquid water-soluble rubber asphalt on the on the reinforcing layer and the background surface for forming a finishing layer(111); and pouring a protection mortar(112) after hardening the finishing layer to prevent infiltration of water. A hardening accelerating agent is added to the first liquid water-soluble rubber asphalt.

Description

Non-exposure double compound waterproofing method using water-soluble coating waterproofing material

The present invention relates to a non-exposure double compound waterproofing method using a water-soluble coating waterproofing material, and in particular, by performing a non-exposure waterproofing construction using an asphalt-based waterproofing film having a fast curing property, the curing time is shortened to work at room temperature It is excellent in the property, and can perform a quick process, shortens the construction period, reduces labor costs, and is easy to form a predetermined thickness by one application, so it is not necessary to repeat the coating It prevents the occurrence of bubbles and pinholes in and out of, thus providing an unexposed double composite waterproof method using a water-soluble coating waterproof material having excellent physical properties of the coating film.

In general, the bonded structure in the conventional waterproof method is two asphalt sheets (1) (2) and two asphalt sheets (parallel to each other in parallel to form a gap at a constant interval on the base surface 1, as shown in Figure 1 2) Fill the filling waterproofing layer 4 in the gap formed between the (3), and attach the nonwoven fabric 5 to the periphery of the two sheets of asphalt sheet (2) (3) and the top of the filling waterproofing layer (4), The upper waterproof liquid layer 6 is coated to cover the upper portion thereof.

The waterproofing material used for the filling waterproofing layer 4 is a waterproofing material which is constructed in a liquid state and hardened after a predetermined time passes at room temperature to solidify in a solid state. The waterproofing material or asphalt of polyurethane or polyurea-based material is heated by heating. Molten hot melt asphalt (hot melt asphalt) has been used.

However, in the conventional waterproof method, when the polyurethane or polyurea-based waterproofing material is applied to the asphalt sheet, the polyurethane or polyurea-based waterproofing material melts the asphalt sheet, thereby the asphalt sheet and the polyurethane or polyurea-based material. When the waterproofing materials are not bonded to each other, that is, having a poor bonding structure, inevitably or insecure waterproof construction will be made, causing problems of maintenance and maintenance costs due to defect repair.

In addition, in the method of constructing the asphalt seal on the asphalt sheet, the molten asphalt should be constructed while the asphalt is heated and melted. In order to melt the asphalt, the asphalt should be boiled at 180 ° C. in a large heating furnace. In the asphalt being melted, since a large amount of toxic gases and smoke are discharged, there is a disadvantage that it is very harmful to the health of the contractor.

Nevertheless, the reason why the asphalt seal construction method for melting and constructing the asphalt is most applied is because it can be waterproofed at low cost and the adhesion performance between the asphalt sheet and the molten asphalt is excellent, so that the waterproof property is stabilized. .

However, when the asphalt is not maintained at 180 ° C. during the melting of the asphalt, physical properties are changed, so that the crack does not occur because the waterproof layer does not flexibly respond to the behavior of the base surface 1 after curing.

The present invention devised to solve the problems of the conventional non-exposure waterproofing method is that the rubberized asphalt coating material has excellent elongation, crack resistance, cold resistance, and bonding properties and at the same time shortens the curing time, even at room temperature. It is possible to easily form the required thickness even with the application of paint, which prevents work delays due to repetitive construction, and gives fast curing properties so that the process can be performed quickly, thereby reducing labor costs. The purpose of the present invention is to provide a non-exposure double compound waterproofing method using a water-soluble coating waterproofing material which makes it possible to elastically react to the behavior of the ground surface and to maintain the waterproofing performance for a long time.

The above object is, the core material consisting of a woven or non-woven fabric is inserted into the rubber asphalt, the step of removing the release paper of the bottom surface of the rubber asphalt sheet having a silica sand layer formed on the upper surface to adhere the adhesive surface formed on the bottom surface to the base surface; Bonding the adhesive surface of the other rubber asphalt sheet to the base surface so as to be spaced a predetermined distance from any one rubber asphalt sheet adhered to the base surface; Bonding a self-adhesive first woven fabric made of glass fiber to a side end upper surface of another rubber asphalt sheet spaced adjacent to the one rubber asphalt sheet to be crosslinked by the first woven fabric; Applying a one-part liquid water-soluble rubberized asphalt mixed with a curing accelerator to the upper portion of the first fabric to a predetermined thickness to form a buffer in a space between the rubber asphalt sheets bonded adjacent to the base surface; ; Attaching a second self-woven fabric made of glass fibers or a non-woven fabric having a plurality of holes formed thereon when the buffer part is solidified; Forming a reinforcing layer by applying a one-part water-soluble rubberized asphalt mixed with a curing accelerator to a predetermined thickness to cover the second or nonwoven fabric; When the reinforcing layer is cured, applying a one-part water-soluble rubberized asphalt mixture having a predetermined amount of agitation by mixing the curing accelerator to cover the rubber asphalt sheet attached to the reinforcing layer and the base surface to form a finishing layer; When the finishing layer is solidified is achieved by a non-exposed double compound waterproof method using a water-soluble coating waterproofing material comprising the step of placing a protective mortar to protect the lower waterproof layer.

Here, it is preferable that the water-soluble rubberized asphalt is a one-part type in which a curing accelerator is mixed, and the water-soluble rubberized asphalt can be selectively adjusted to the curing time by adjusting the mixing ratio of the curing accelerator in each step.

The present invention provides a fast curing property by stirring and mixing a curing accelerator to the water-soluble rubberized asphalt coating waterproofing material, enabling the environment-friendly waterproof construction by using a water-soluble rubberized asphalt, stirring between the curing accelerator and water-soluble rubberized asphalt coating material As there is no error, the ratio of mixing the curing accelerator to the water-soluble rubberized asphalt coating waterproofing material may be adjusted in each step. Therefore, the property of the water-soluble rubberized asphalt that changes according to the curing speed can be effectively applied according to the structure of the waterproof layer. It can reinforce and have the effect of enabling simple construction as a one-part type.

In addition, the shortening of the curing time as described above can be carried out a rapid process, the construction period is shortened, there is an advantage of improved productivity and reduced labor costs, it is easy to form a predetermined thickness in a single coating, repeated construction Not only this is required, but since bubbles and pinholes do not occur inside and outside the coating film, the coating film is dense and has excellent properties such as tensile strength elongation.

The non-exposed double composite waterproof method using the water-soluble coating waterproofing material according to the present invention will be described with reference to FIGS. 2 to 4.

First, the rubber asphalt sheet 101 of the present invention, as shown in Figure 2, the center material 102 made of a woven or nonwoven fabric is inserted into the central portion of the rubber asphalt 101a as shown in FIG. In addition, the silica sand layer 103 is formed on the upper surface to form an irregular upper surface, thereby improving adhesion to the water-soluble rubberized asphalt applied during waterproofing.

In addition, the bottom surface of the rubber asphalt sheet 101 is formed with an adhesive surface 104 to be directly attached to the base surface 106, the release surface 105 is attached to the adhesive surface 104 when the construction The release paper 105 can be easily removed.

Accordingly, the rubber asphalt sheet 101 according to the present invention is closely attached to the base surface 106 so that the rubber asphalt sheet 101 is closely attached to the base surface 106 so as to be accompanied by the behavior of the base surface 106, thereby providing the rubber by the base surface 106 behavior. The problem that cracks occur in the asphalt sheet 101 has been solved.

Here, since the base surface 106 behaves as described above, the force can be concentrated in the joint portion (A) to which the rubber asphalt sheet 101 and the rubber asphalt sheet 101 are bonded. The joint portion to which the sheet 101 is bonded is to provide an unexposed double composite waterproof method using a water-soluble coating waterproof material that can flexibly correspond to the behavior of the base surface 106.

Referring to FIGS. 3 and 4, the non-exposed dual composite waterproof method using the water-soluble coating waterproofing material according to the present invention is as follows.

First, as described above, the center member 102 made of a woven or nonwoven fabric is inserted and formed by removing the release paper 105 on the bottom of the self-adhesive rubber asphalt sheet 101 having the silica sand layer 103 formed thereon. By performing the step of adhering the formed adhesive surface 104 to the base surface 106, the adhesive surface 104 of the rubber asphalt sheet 101 is intimately bonded to the base surface 106 to change the seasonal and temperature changes The rubber asphalt sheet 101 during the behavior of the base surface 106 according to the behavior to be accompanied by this behavior.

At this time, another rubber asphalt sheet 101 is constructed adjacent to the rubber asphalt sheet 101 is constructed to be spaced apart from each other by a predetermined distance as shown in Figure 3 and to form a joint portion (A) In this case, the separation distance should be constructed at least 1Cm or more, depending on the conditions of the site it is preferable to be spaced up to more than a few Cm or 10Cm.

Then, the first self-adhesive woven fabric made of glass fibers is bonded to the first end of the rubber asphalt sheet 101a and the other rubber asphalt sheet 101b adjacent to each other, as shown in FIG. The step of crosslinking by the woven fabric 107 is performed.

Therefore, as shown in FIG. 3, a space is formed between the two rubber asphalt sheets 101a and 101b, and the two rubber asphalt sheets 101a and 101b are connected to each other by the first woven fabric 107. Have.

Here, two rubber asphalt bonded to the base surface 106 and adjacent to each other by applying or filling a liquid water-soluble rubberized asphalt 113 to a predetermined thickness on the upper portion of the first woven fabric 107 as shown in FIG. The water-soluble rubberized asphalt 113 is filled in the spaced space between the sheets 101a and 101b and cured to form the buffer 108.

The water-soluble rubberized asphalt 113 filled between the two rubber asphalt sheets 101a and 101b has a property that asphalt cannot have by adding rubber components to the asphalt, that is, excellent elongation, crack resistance, cold resistance, bondability, It is intended to have elasticity.

In addition, since the silica sand layer 103 is formed on the upper surface of the rubber asphalt sheet 101 attached to the base surface 106 to be waterproofed as described above, the surface of the rubber asphalt sheet is irregularly formed. Water-soluble rubberization is applied to the upper portion of the first woven fabric 107 as well as to strengthen the binding force of the first woven fabric 107 attached to the upper surface of the sheet (101a) (101b) is filled between the two rubber asphalt sheet 101 As the asphalt 113 is covered with the silica sand layer 103, the fixing force is strengthened in the process of being adhered to the grooves and the protrusions formed by the silica sand layer 103 of the irregular surface and cured, thereby strengthening the binding force or the adhesion force. By the first woven fabric 107, the binding force and the adhesive force can be strengthened secondary.

In particular, since the water-soluble rubberized asphalt 113 has the physical properties of the liquid, when the curing accelerator to shorten the hardening time of the water-soluble rubberized asphalt 113 is mixed and stirred, the curing time according to the content ratio of the hardening accelerator Since it can be shorter, the buffer portion 108 of a desired thickness can be formed by one filling and application, so that repeated construction is excluded and the construction becomes very simple.

In addition, the shortening of the curing time can be used regardless of environmental conditions, such as winter at the freezing point or below freezing temperature, and bubbles and pinholes do not occur inside and outside the coating film, thereby making the coating film excellent in physical properties.

The water-soluble rubberized asphalt 113 has a property that asphalt cannot have by mixing styrene-based polymers, ethylene-vinyl acetate or styrene-butadiene latex, etc., that is, has excellent elongation, crack resistance, cold resistance, bondability, and the like. In order to further strengthen heat resistance, strength, and hardness, the present invention refers to the addition of a surfactant, a curing accelerator, and the like.

On the other hand, when the buffer unit 108 is solidified or hardened to attach a self-supporting second woven fabric 109 made of glass fiber equivalent to the first woven fabric 107 or a non-woven fabric with a plurality of holes perforated thereon. Step 2, the second woven fabric 109 or the upper portion of the non-woven fabric so that the water-soluble rubberized asphalt 113, once again as shown in Figure 4 to cover the second woven fabric 109 or non-woven fabric to a predetermined thickness By curing to form a reinforcing layer (110).

Then, the water-soluble rubberized asphalt 113 is applied to the upper portion of the rubber asphalt sheet 101 to have a predetermined thickness, and the water-soluble rubberized asphalt 113 is covered so that the second woven fabric 109 or the nonwoven fabric is covered as shown in FIG. 4. It is applied to a predetermined thickness so that the finishing layer 111 is molded.

As described above, when the finishing layer 111 is formed, the finishing layer 111 is formed by being applied to the silica sand layer 103 formed as an irregular surface on the upper surface of the rubber asphalt sheet 101, thereby strengthening the binding force of the rubber asphalt. The sheet 101 and the finishing layer 111 made of the water-soluble rubberized asphalt 113 are easily integrated.

Therefore, the rubber asphalt sheet 101 behaves together with the base surface 106 when the base surface 106 behaves, and the finishing layer 111 formed with the rubber asphalt sheet 101 is water-soluble rubberized asphalt 113. ) Is elastically and elastically finely expanded and contracted by elasticity and elasticity among physical properties, and at this time, since the reinforcement layer 110 and the buffer portion 108 are also contracted or expanded, the joint part is a joint part. It is possible to prevent the occurrence of cracks in advance.

When the finishing layer 111 as described above is solidified or hardened, as shown in FIG. 4, a protective mortar 112 or a protective material is poured on the lower waterproof layer formed of the rubber asphalt sheet 101 and the finishing layer 111 to an external force. By performing a step to be protected by, by the non-exposed double composite waterproof method using a water-soluble coating waterproof material to prevent the waterproof layer is exposed.

1 is a cross-sectional view showing a structure of a conventional waterproof structure and a bonded joint.

Figure 2 is a cross-sectional view showing the structure of the rubber asphalt sheet according to the present invention.

Figure 3 is a view showing the construction state of the non-exposed double composite waterproof method using a water-soluble coating waterproofing material according to the present invention.

4 is a view showing the entire construction structure of the non-exposed double composite waterproof method using the water-soluble coating waterproofing material according to the present invention.

<Description of the symbols for the main parts of the drawings>

101: rubber asphalt sheet 102: core material

103: silica sand layer 104: adhesive surface

105: release paper 106: surface

107: first woven fabric 108: buffer portion

109: second or non-woven fabric

110: reinforcement layer 111: finishing layer

112: protective mortar or protective material

113: water soluble rubberized asphalt

Claims (2)

A core material formed of a woven or nonwoven fabric is inserted into the rubber asphalt, and the release surface of the bottom of the rubber asphalt sheet having a silica sand layer formed on the top surface thereof is removed so that the adhesive surface formed on the bottom surface is bonded to the base surface; Bonding the adhesive surface of the other rubber asphalt sheet to the base surface so as to be spaced a predetermined distance from any one rubber asphalt sheet adhered to the base surface; Bonding a self-adhesive first woven fabric made of glass fiber to a side end upper surface of another rubber asphalt sheet spaced adjacent to the one rubber asphalt sheet to be crosslinked by the first woven fabric; Applying a one-part liquid water-soluble rubberized asphalt mixed with a curing accelerator to the upper portion of the first fabric to a predetermined thickness to form a buffer in a space between the rubber asphalt sheets bonded adjacent to the base surface; ; Attaching a second self-woven fabric made of glass fibers or a non-woven fabric having a plurality of holes formed thereon when the buffer part is solidified; Forming a reinforcing layer by applying a one-part water-soluble rubberized asphalt mixed with a curing accelerator to a predetermined thickness to cover the second or nonwoven fabric; When the reinforcing layer is cured, applying a one-part water-soluble rubberized asphalt mixture having a predetermined amount of agitation by mixing the curing accelerator to cover the rubber asphalt sheet attached to the reinforcing layer and the base surface to form a finishing layer; When the finishing layer is solidified non-exposure type double composite waterproof method using a water-soluble coating waterproof comprising a step of placing a protective mortar to protect the lower waterproof layer. delete

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