KR100934283B1 - Expansion joint waterproofing and waterproofing method of concrete structure using expansion joint member - Google Patents

Abstract

The present invention relates to a waterproof structure and a waterproofing method of expansion joints of concrete structures using expansion joint members, self-adhesive, expansion joints or construction joints of structures, such as buildings, civil works, tunnels, underground joints, subways, etc. By connecting using a flexible joint member having excellent elasticity and waterproofness, it can be prevented from leaking into the expansion joint or the construction joint by stretching and displacing in response to thermal expansion or cracking of the concrete structure.

According to this configuration of the present invention, it is possible to use a short-life sealing material or a fixed steel, to provide a perfect waterproof according to the behavior of the concrete structure, and to quickly and easily waterproof the expansion joint of the concrete structure Can be installed.

Expansion Joint, EPDM, TPU, Clearance, Attachment, Concrete Structure

Description

Waterproof joint and expansion method of expansion joint of concrete structure using expansion joint member {EXPANSION JOINT WATERPROOPING SYSTEM AND METHOD USING SELF-ADHESIVE WATERPROOF SHEET}

The present invention relates to a waterproof structure and a waterproofing method of the expansion joint of the concrete structure using the expansion joint member, and more particularly, the present invention relates to expansion joints of structures such as buildings, civil works, tunnels, underground joints, or subways Construction joints can be connected using expansion joints with excellent self-adhesion, elasticity, and waterproofness to prevent leakage from inside the expansion joints or construction joints by stretching and displacing them in response to thermal expansion or cracking of concrete structures. It relates to the waterproof structure and waterproofing method of the expansion joint of the concrete structure using the expansion joint member.

In general, structures such as buildings, civil works, tunnels, underground cavities, subways, etc., can respond to new construction of structures due to uneven settlement of the ground or temperature changes due to seasonal changes, and ease of construction during construction of the structures. To this end, expansion joints or construction joints are placed.

In order to prevent leakage of such expansion joints or construction joints in the past, after filling the backing material after cleaning the base surface and filling the sealing agent, the rubber plate is covered and the copper plate is placed on it, and then it is fixed on the concrete floor by fixing steel. The method of pouring pressed concrete to finish it was used.

However, since the sealing agent does not continuously cope with the concrete structure when the concrete structure is thermally expanded, it causes a defect.

In addition, the sealing agent has a problem in that the material is deteriorated due to the deterioration of the elasticity after a certain period of time and the leakage occurs due to the play caused by thermal expansion or cracking of the concrete structure.

In addition, since the sealing agent is filled, the rubber plate is covered, and a copper plate is placed thereon to fix the upper part of the concrete structure with the fixing hardware. Therefore, moisture is introduced into the area fixed with the fixing steel or the fixing steel is corroded to deteriorate the surrounding concrete structure. There was a problem letting.

Therefore, the waterproof construction of expansion joints or construction joints of almost all concrete structures had a problem that should be reconstructed at least once every three years.

In addition, the waterproof construction of the expansion joint or construction joint of the conventional concrete structure is required to go through a number of processes, such as high cost is required, and there was a problem that the professional waterproof contractor must be constructed.

The present invention has been made to solve this problem, the object of the present invention is to continuously conform to the thermal expansion or crack of the concrete structure waterproof structure of the expansion joint of the concrete structure using the expansion joint member that can prevent leakage It is to provide a waterproof method.

In addition, an object of the present invention is the expansion joint of the concrete structure using the expansion joint member that can be easily and firmly attached to the expansion joint of the concrete structure without the use of a sealing material that is easily deteriorated and easily lose elasticity or easy to corrode fixed steel It is to provide a waterproof structure and a waterproof method.

In addition, an object of the present invention is to provide a waterproof structure and waterproofing method of the expansion joint of the concrete structure using the expansion joint member that can be easily installed at a low cost and long lifespan construction process.

Waterproof structure using an expansion joint member according to an embodiment of the present invention is a backup layer disposed in the space portion between the first concrete structure and the second concrete structure spaced apart from each other, and the first concrete structure and the second concrete structure A fryer layer formed at an upper end portion of the upper portion and a free portion which connects the first concrete structure and the second concrete structure to each other by the self-fixing portion fixed on the fryer layer of the upper portion and is freely stretchable in the space portion. A first elastic joint member having excellent self-adhesion, elasticity and durability, a push mortar layer disposed on the fastening portion of the expansion joint member and having a predetermined channel portion in communication with the space portion, and a channel of the push mortar layer And a cover plate fixed to the seating portion of the push mortar layer by a second expansion joint member to cover the portion. And that is characterized.

The waterproof structure and waterproofing method of the expansion joint of the concrete structure using the expansion joint member according to an embodiment of the present invention can be continuously adhered to the thermal expansion or crack of the concrete structure to prevent the leak completely, deteriorated and easily Easily and securely secure expansion joints of concrete structures spaced apart from each other without the use of sealing materials or elastic fasteners that lose their elasticity, long life and simple construction even if they are not experts, and can reduce the cost of waterproof construction. have.

With reference to the accompanying drawings will be described in detail the waterproof structure and waterproofing method of the expansion joint of the concrete structure using the expansion joint member according to an embodiment of the present invention.

First, with reference to Figures 1 to 3 will be described in the expansion joint waterproof structure of the concrete structure using the expansion joint member according to an embodiment of the present invention.

1 is a cross-sectional view for showing the expansion joint waterproof structure of the floor concrete structure using the expansion joint member according to an embodiment of the present invention, Figure 2 is a waterproof construction of the expansion joint of the concrete structure according to an embodiment of the present invention An enlarged cross sectional view of the expansion joint member used in the present invention. Figure 3 is a cross-sectional view for showing the waterproof structure of the expansion joint of the wall concrete structure using the expansion joint member according to an embodiment of the present invention.

1 and 2, the expansion joint waterproofing structure 1 of the floor concrete structure using the expansion joint member according to an embodiment of the present invention is spaced apart from each other, the first concrete structure 10 and the second It is configured to connect the spaces 11 between the concrete structures 10 ′.

The expansion joint waterproof structure 1 of the floor concrete structure using the expansion joint member is the first and second in the space 11 between the first concrete structure 10 and the second concrete structure 10 '. The backing agent layer 20 which supports the concrete structures 10 and 10 'is provided.

The backup agent layer 20 is preferably made of an elastic material such as polyurethane or styrofoam to support the space part 11 while complying with the thermal expansion of the first and second concrete structures 10 and 10 '. In this case, the waterproofing effect may be additionally increased.

The primer layer 30 is formed by applying a primer to the upper end portions 10a and 10'a facing each other of the first concrete structure 10 and the second concrete structure 10 '.

The primer layer 30 has a gap between the first concrete structure 10, the second concrete structure 10 ′, and the expansion joint member 100 to be disposed on the upper end portions 10a and 10'a. To prevent leakage completely.

The first expansion joint member 100 is the first concrete structure via the spare portion 101 and the primer layer 30 is bent downwardly arranged to be freely stretched in the space 11 10 and a self-supporting part 103 fixed to the upper end portions 10a and 10'a of the second concrete structure 10 '.

The clearance 101 may be formed of at least two or more EPDM sheet layers 110 having high elasticity and durability, and at least two or more EPDM sheet layers 110 having a very slippery surface, which may not be easily bonded. The first self-supporting layer 120 is disposed between the EPDM sheet layer 110.

The EPDM sheet layer 110 generally has elasticity of 500% or more, is a high elastic material having excellent weather resistance, heat aging resistance, and ozone resistance, and has excellent chemical stability, and thus maintains initial physical properties for 20 years or more, and may be used for vibration, moisture, chemicals, etc. Due to external environmental factors, there is almost no change in physical properties and excellent waterproof life, and there is no change in physical properties such as no breakage or dripping even in the range of -30 ° C to 150 ° C. And according to the behavior of the second concrete structure (10, 10 ') can be leak-proof.

To this end, the EPDM sheet layer 110 is preferably used by mixing the following materials.

EPDM Blending Ratio No Raw material name Compound weight (gr) One EPDM7141 70 2 EPDM570C 30 3 2 kinds of zinc 5 4 Stearic acid 2 5 Dispersant WB-212 3 6 Labor 2 7 Carbon SRF 50 8 Whitening (Filling Agent) 50 9 Process oil 30 10 Accelerator BZ 2 11 TT 0.5 12 TRA 0.5 13 M 0.5 14 brimstone 1.5 15 total 247

As described above, the EPDM sheet layer 110 manufactured at such a mixing ratio is very smooth with an inactive surface having a low surface energy level, and thus is not easily adhered to other materials.

However, according to an embodiment of the present invention, the EPDM sheet layer 110 may be bonded with high strength without being broken or peeled off by the first self-sticking layer 120 having excellent self-retainability.

The first self-adhesive layer 120 is preferably composed of 15 parts by weight of butyl rubber (IIR), 10 parts by weight of a reinforcing agent (carbon), 25 parts by weight of a pressure sensitive adhesive, 49 parts by weight of a filler (heavy charcoal), and 1 part by weight of a plasticizer. .

The first self-adhesive layer 120 configured as described above has excellent durability, weather resistance, chemical resistance, ozone resistance, hardening at low temperatures or softening even at high temperatures, strong adhesion to all kinds of adherends, and strong resistance to cracking. The EPDM sheet layer 110 may be firmly bonded to at least two layers.

Table 1 shows the bonding strength when the EPDM sheet layer 110 is bonded using the first self-adhesive layer 120 and another adherend according to an embodiment of the present invention. As can be seen in Table 1, it can be seen that the EPDM sheet layer 110 is bonded with high strength by the first self-adhesive layer 120.

Table 1

First invention first self-supporting layer Comparative Example 1 Comparative Example 2 Comparative Example 3 Kinds Butyl rubber Water Soluble Adhesive Organic adhesive General Rubber Adhesive Peel Resistance ²³ N / cm ³ Not attached Not attached ¹⁷ N / cm ³

As described above, the margin portion 101 may have a thickness of about 1 mm to 2 mm and at least two or more EPDM sheet layers 110 to be in close contact with the first self-adhesive layer 120 having a thickness of about 1 mm to 2 mm. It is preferable because it can provide excellent durability and elasticity corresponding to thermal expansion or cracking of the first and second concrete structures 10 and 10 'and does not deteriorate even after long use.

Table 2 shows that the thickness of the EPDM sheet layer 110 is about 1 mm to 2 mm, and the first self-adhesive layer 120 is about 1 mm to 2 mm thick because it can provide both durability and elasticity. Shows.

0-1mm  1 to 2mm  2 to 3mm  3-4mm durability  Bad Good Good Good elasticity  Good Good Bad Bad

On the other hand, the fastening portion 103 of the first expansion joint member 100 is a second fastening layer 121 is applied to the surface of the at least two or more EPDM sheet layer 110 in addition to the configuration of the margin 101. It is further provided.

Since the second self-adhesive layer 121 is made of the same material as the first self-adhesive layer 120, the second self-adhesive layer 121 may be fixed to other concrete structures as well as structures of other materials, and thus may be fixed without other fixing means. have.

Therefore, without the gap between the upper end portions 10a and 10'a of the concrete structures 10 and 10 'via the primer layer 30 without the help of other fixing means by the second self-adhesive layer 130. It can be firmly combined.

In addition, in the case of concrete slab, since the pressing mortar layer 40 to be described later is further formed on the attachment portion 101, the first expansion joint member 100 is more firmly joined to the concrete structure 10, The margin 101 may be stretched according to the behavior of 10 ').

Meanwhile, a reinforcement protrusion 101a is further formed in the margin portion 101 in order to prevent the margin portion 101 from being broken or cracked by friction at the corners of the concrete structures 10 and 10 '.

The reinforcement protrusion 101a may be formed by adding a TPU film having five times or more durability than the EPDM sheet, and the reinforcement protrusion 101a may provide a difference in color in addition to the difference in thickness than the clearance 101. have.

Therefore, anyone can install it without the need of an expert to cut the margin 101 by coupling the self-supporting part 103 to the concrete structures 10 and 10 'based on the reinforcement protrusion 101a.

The expansion joint member 100 is attached to the release paper 140 so as not to attach or contaminate other materials to the attachment portion 103 to facilitate the operation and movement.

The expansion joint member 100 is disposed in the space 11 of the first and second concrete structures 10, 10 ′, communicates with the space 11, and is larger than the width W1 of the space. A press mortar layer 40 having a channel 14 having a large width W2 is formed.

The pressing mortar layer 40 is formed by placing a formwork or partition on the self-supporting portion 103 of the expansion joint member 100 and applying a pressing mortar.

However, the formwork or partition has a problem that must be removed after the pressing mortar layer (40) installation.

On the other hand, when the pressing mortar layer 40 is cured, the partition plate is removed and covers the upper end of the channel 14 with a cover plate 50 to protect the expansion joint member 100 from ultraviolet rays or external materials.

The cover plate 50 may be formed of various materials such as iron plate, reinforced plastic or stainless steel, such as a strong metal material, rubber tiles.

The cover plate 50 may be fixed to the pressing mortar layer 40 by using the second expansion joint member 51. Since the configuration of the second expansion joint member 51 is the same as that of the first expansion joint member 100, a detailed description thereof will be omitted.

However, the mounting plate 103 of the second expansion joint member 51 is disposed at the edge of the cover plate 50 and the cover plate 50 disposed at the seating portion 41 of the pressing mortar layer 40. ) Is tightly coupled, and even if cracks or gaps occur in the pressing mortar layer 40 due to thermal expansion due to the self-maintenance of the magnetic attachment part 101, the channel 14 may not only be fixed but also prevent leakage. Can be.

In addition, when the cover plate 50 is formed of a metal material, the lower portion of the cover plate 50 may be disposed to prevent corrosion of the clearance portion 101.

On the other hand, when the clearance portion 101 is disposed below the cover plate 50, the formwork or partition because it does not need to remove the formwork or partition after installation, the construction can be simplified.

The width W2 of the channel 14 is configured to be larger than the width W1 of the space 11 so that the behavior of the marginal portion 101 of the expansion joint member 100 is made more flexible. All.

The cover plate 50 is further provided with a flange 51 of the clearance portion 101 at the bottom without the need for partitions to facilitate the coupling to the channel 14, and the inconvenience of installing and removing the partitions. It can be eliminated, it is possible to prevent the pressing mortar layer 40 or damage the first expansion joint member 100 during the installation and removal of the partition.

The flange 51 may correspond to the behavior of the push mortar 40 constituting the channel 14.

 Figure 3 illustrates a waterproof structure between the wall concrete structure using the expansion joint member according to another embodiment of the present invention.

Referring to Figure 3, another embodiment of the present invention because the cover plate 50 is similar to one embodiment of the present invention except that the first expansion joint member 100 is disposed directly on the detailed description is Omit.

However, the cover plate 50 is tightly fixed to the self-supporting portion 103 of the expansion joint member 100, and spaced apart from the predetermined space (WD) with respect to the clearance portion 101 is the clearance portion 101. Is freely behaving.

Now, with reference to Figure 4 will be described briefly with respect to the expansion joint waterproofing method between the concrete structure using the expansion joint member according to an embodiment of the present invention.

Figure 4 is a flow chart for explaining the expansion joint waterproofing method between the concrete structure according to an embodiment of the present invention.

First, the upper and lower base surfaces of the first and second concrete structures 10 and 10 'are cleaned and a primer is applied to form a primer layer 20. (S10)

Arranging the margin 101 in the space 11 between the first and second concrete structure (10, 10 ') based on the reinforcement protrusion 101a of the expansion joint member 100 and the expansion joint member The magnetic attachment part 103 of 100 is attached to upper ends of the first and second concrete structures 10 and 10 ', respectively. (S20)

At this time, the margin portion 101, as described above, since at least two or more EPDM sheet layer 110 is attached to the butyl rubber layer 110, the elasticity and durability is excellent, and the magnetic attachment portion 103 ) May be firmly bonded on the primer layer 20 because the second self-adhesive layer 130 is further formed outside the at least two EPDM sheet layers 110, and the press mortar layer 40 to be described later. Can also be compliant combined.

Subsequently, a partition is disposed on the space 11 to form a channel 14 having a width greater than the width of the space 11, and a magnetic attachment part of the expansion joint member 100 is formed around the partition. Press 103 to cover the mortar to form a press mortar layer 40. (S30)

At this time, the cover plate 50 with the flange portion 51 may be disposed first without using the partition 13.

As described above, the flange portion 51 is composed of the elastic joint member 100 having good durability and elasticity, so that the flange portion 51 does not need to be removed afterwards, thereby simplifying the construction.

After the pressing mortar layer 40 is cured, the partition, that is, the formwork, is removed, and at this time, an upper portion of the channel 14 forms a seating portion on which the cover plate 60 is seated (S40).

 The seat 14a of the channel 14 is covered using the cover plate 60. (S50)

The attachment part 103 of the second expansion joint member 51 is attached around the outer circumference of the cover plate 50 to be fixed to the seating part 14a of the channel 14.

By increasing the margin portion 103 to form the flange portion 51, it was possible to solve the problem that the conventional partition 15 or formwork is installed and removed after curing the pressing mortar layer 40.

In some cases, the cover plate 50 may be directly disposed on the expansion joint member 100 without forming the pressing mortar layer 40 on the expansion joint member 100.

At this time, the cover plate 50 may be composed of a central portion 53 corresponding to the margin portion 103 and an outer peripheral portion 55 having an area corresponding to the attachment portion 101.

The outer circumferential portion 55 may start 5 to 10 cm away from the channel 14 so that the clearance portion 103 may expand and contract corresponding to the behavior of the first and second concrete structures 10 and 10 ′.

As such, since the cover plate 50 is covered with the expansion joint member 100, no gap is formed, and even when the cover plate 50 is made of a metal material, corrosion may hardly occur.

5a to 5d show an application example in which the expansion joint member according to the embodiment of the present invention is used.

As shown in Figure 5a, the waterproof structure using the expansion joint member according to an embodiment of the present invention may be used in the expansion joint between the longitudinal concrete structure and the transverse concrete structure, as shown in Figure 5b Likewise, it may be applied to expansion joints between the walls, and may be applied to flexure joints, such as parapets, as shown in FIG. 5C, and between struts and beams separated from each other, as shown in FIG. 5D. May be applied.

 1 is a cross-sectional view for showing the waterproof structure of the expansion joint of the floor concrete structure using the expansion joint member according to an embodiment of the present invention,

Figure 2 is an enlarged cross-sectional view of the expansion joint member used in the expansion joint waterproof structure of the concrete structure according to an embodiment of the present invention,

Figure 3 is a cross-sectional view for showing the waterproof structure of the expansion joint of the wall concrete structure using the expansion joint member according to an embodiment of the present invention,

Figure 4 is a flow chart for explaining a method of waterproofing the expansion joint of the concrete structure using the expansion joint member according to an embodiment of the present invention,

5a to 5d are cross-sectional views of various concrete structures to which the expansion joint member according to an embodiment of the present invention is applied.

Claims (18)

In waterproof structure of expansion joint part of concrete structure using expansion joint member,  A backup agent layer disposed in a space between the first concrete structure and the second concrete structure spaced apart from each other; A fryer layer formed at an upper end portion of the first concrete structure and the second concrete structure facing each other; Self-adhesive, stretchable, and durable first comprising a margin that connects the first concrete structure and the second concrete structure and freely stretches in the space part by a magnetization part attached to the fryer layer of each upper end portion. Expansion joint member; And, A cover plate covering the space part to protect the first expansion joint member against ultraviolet rays or foreign substances, A press mortar layer disposed on the attachment portion of the expansion joint member and having a predetermined channel portion in communication with the space portion, wherein the cover plate covers the channel portion of the press mortar layer, The margin portion of the first expansion joint member waterproof structure of the expansion joint of the concrete structure including a magnetic coupling layer for coupling the two or more EPDM sheet layer and the two or more EPDM sheet layer with a strength of 17 N / cm ³ or more. delete delete The method of claim 1, One or more reinforcement protrusions are formed in the clearance portion, and the reinforcement protrusions have a color and thickness difference, and the expansion joint waterproof structure of the concrete structure made of a TPU film. The method of claim 4, wherein The self-adhesive layer is 15 parts by weight of butyl rubber (IIR), 10 parts by weight of the reinforcing agent (carbon), 25 parts by weight of the adhesive tackifier, 49 parts by weight of the filler (heavy charcoal), 1 part by weight of plasticizer waterproofing expansion joint of the concrete structure. The method of claim 5, wherein The magnetization part is formed by further arranging a second magnetization layer on the surface of the EPDM film layer, and the second magnetization layer is made of the same material as the first magnetization layer, and has a larger width and length than the first magnetization layer. Waterproof structure of expansion joint of concrete structure. The method of claim 1, The cover plate is coupled to the pressing mortar layer by using a second expansion joint member, the structure of the second expansion joint member is the expansion joint waterproof structure of the concrete structure the same as the configuration of the first expansion joint member. The method of claim 7, wherein The cover plate is coupled to the pressing mortar layer by the magnetic fastening portion of the second expansion joint member and the expansion joint waterproof structure of the concrete structure in which the flange portion is arranged downward by the margin of the second expansion joint member. The method of claim 1, The width of the space portion is the expansion joint waterproof structure of the concrete structure 5 to 10cm smaller than the width of the channel. A magnetizing part attached to an upper end portion of the first concrete structure and the second concrete structure and connecting a space part therebetween, and a spare part integrally connected to the magnetizing part and freely stretchable in the space part, The expansion part of the expansion joint member includes a joint layer for coupling two or more EPDM sheet layer and the two or more EPDM sheet layer with a strength of 17 N / cm ³ or more. delete The method of claim 10, One or more reinforcement protrusions are formed in the clearance portion, and the reinforcement protrusions have a color and thickness difference and are made of a TPU film. The method of claim 10, The self-adhesive layer is a stretch joint member consisting of 15 parts by weight of butyl rubber (IIR), 10 parts by weight of a reinforcing agent (carbon), 25 parts by weight of a pressure-sensitive adhesive part, 49 parts by weight of a filler (heavy charcoal), 1 part by weight of a plasticizer. The method of claim 10, The magnetizing part is formed by further arranging a second self-adhesive layer on the surface of the EPDM film layer, and the second self-adhesive layer is made of the same material as the first self-adhesive layer, and has a larger width and length than the first self-adhesive layer. Expansion joint member. Thermal expansion of the concrete structure, including a magnetized part attached to an upper end portion of the first concrete structure and the second concrete structure and connecting a space part therebetween, and a spare part integrally connected to the magnetic part and freely stretchable in the space part; In the method of waterproofing the expansion joint of the concrete structure using the expansion joint member that is stretched in response to the crack, Forming a primer layer by applying primers to upper ends of the first and second concrete structures; Fixing the elastic joint member by attaching the magnetic coupling part of the elastic joint member to the primer layer and arranging the margin part in the space part; Covering the space part with a cover plate; Before the covering of the cover plate further comprises the step of installing a pressing mortar layer having a channel portion in communication with the space portion on the expansion joint member, The cover plate may further include a flange by using the expansion joint member, The margin portion includes two or more EPDM sheet layers and a self-adhesive layer for bonding the two or more EPDM sheet layers with a strength of 17 N / cm ³ or more, and having one or more reinforcing protrusions formed of TPU films having different colors and thicknesses. The expansion joint waterproofing method of the concrete structure to arrange the clearance to the space based on the reinforcement protrusion. delete delete delete

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