KR102473708B1 - the improved water proof structure in concrete joint - Google Patents

Abstract

The present invention relates to an improved watertight structure for a concrete joint to construct or repair joints of concrete structures including irrigation channels, which increases waterproofness and durability of concrete waterway structures. According to the present invention, the improved watertight structure for a concrete joint comprises: a water-blocking plate (100) installed so that an elastic part (110) is located in a gap (S) in a concrete joint in which the gap (S) is formed; a filler assembly (200) installed inside the gap (S) so that a lower end is close to the elastic part (110); and a mesh-reinforced waterproof sheet (300) disposed on the upper part of the gap (S). The upper end of the filler assembly (200) is located at a predetermined depth in the gap (S) and the mesh-reinforced waterproof sheet (300) is installed in the gap (S) while being pressed with a backup material (400) to approach the upper end of the filler assembly (200) such that the upper surface is finished. In addition, the filler assembly (200) includes a plurality of filler units (210) and a liner (250).

Description

The improved water proof structure in concrete joint}

The present invention is for constructing or repairing a joint of a concrete structure including a drain, a water stop plate 100 installed so that the elastic part 110 is located in the gap (S) in the concrete joint in which the gap (S) is formed; A filler assembly 200 installed inside the gap S so that its lower end is close to the elastic part 110; It relates to an improved concrete joint watertight structure, characterized in that it is configured to include; a mesh-reinforced waterproof sheet 300 installed on top of the gap (S).

1 is a photograph of a defect occurring at a joint, which is a joint of a conventional irrigation canal or drainage canal.

In general, concrete structures have expansion joints spaced apart from each other by a certain distance in preparation for contraction and expansion of concrete according to temperature changes in winter or summer, or joints such as construction joints inevitably occur during construction.

Joints of concrete structures are usually equipped with water stop plates to prevent leakage.

Depending on the material and use, various products such as rubber water stop material, soft PVC water stop material, and copper water stop plate are used for the water stop plate.

Usually, the water stop plate is generally formed in a flat plate shape having a certain width, and both sides are inserted into and fixed to a neighboring concrete structure.

That is, both sides of the water stop material are cured and fixed together with the concrete by sequentially pouring concrete in a state where both sides of the water stop material are installed in advance in a formwork for forming a concrete structure.

The water stop plate fixed in this way blocks external water from entering the concrete structure through the spaced joints between the concrete structures.

However, when the life span is over due to cracks and cracks in the water stop caused by impact resistance and vibration resistance repeatedly applied to the concrete structure for a long period of time,

Alternatively, when the water stop plate does not function properly due to poor construction, repair work is performed as shown in FIG. 1 to prevent leakage of the joint.

However, it is difficult to repair structures such as irrigation channels that are always in contact with water, and even after repair, defects often occur again.

In the present invention, smooth water supply is impossible when the function of the facility deteriorates due to the aging of the aqueduct bridge of the irrigation main line,

It is to promote disaster preparedness and efficient use of water resources through functional recovery and repair and reinforcement of old facilities by repairing structures and joints.

Existing agricultural waterway structures are exposed to various harsh atmospheric environments after construction is completed.

Complex factors such as repeated freezing and thawing, drying shrinkage, thermal stress, chemical reaction, and contamination cause penetration due to elongation and contraction, fatigue failure, and deterioration of water flow function, resulting in concrete cracks and various types of concrete defects.

In particular, damage is concentrated on joints, which are joints, and repair is most urgently required in the maintenance stage.

Most of the water leakage problems appear at the canal joints, and the required amount of waterway loss occurs excessively, so the repair cost is higher than that of other structures.

Therefore, an appropriate construction method is urgently needed to improve the watertightness and durability of the joint of the waterway structure.

Accordingly, the present inventors have developed an improved concrete joint watertight structure of the present invention that can construct a watertight joint with a solid structure when constructing a irrigation canal and is easy to repair defects.

[Document 1] Republic of Korea Patent Registration No. 10-1676383 'Concrete pipe in which watertight packing is insert-molded and its manufacturing method', November 09, 2016 [Document 2] Korean Patent Registration No. 10-1804476 'Watertight Complex Repair Method for Concrete Structure', November 28, 2017

The present invention is presented in order to solve the various conventional problems as described above. The purpose is to provide an improved concrete joint watertight structure that can construct a joint with a solid structure when constructing a waterway and is easy to repair defects.

In order to solve the above technical problem, the present invention is for constructing or repairing a joint of a concrete structure including a waterway,

Water stop plate 100 installed so that the elastic part 110 is located in the gap (S) in the concrete joint in which the gap (S) is formed;

A filler assembly 200 installed inside the gap S so that its lower end is close to the elastic part 110;

A mesh-reinforced waterproof sheet 300 laid over the gap (S);

It provides an improved concrete joint watertight structure, characterized in that configured to include.

And the top of the filler assembly 200 is located at a predetermined depth in the gap (S),

In the gap (S), the mesh-reinforced waterproof sheet 300 is pressed and installed with the backup material 400 so as to approach the upper end of the filler assembly 200, and the upper surface is finished. An improved concrete joint watertight structure to provide.

In addition, the filler assembly 200,

It provides an improved concrete joint watertight structure comprising a plurality of filler units 210 and a liner 250.

According to the present invention, it is possible to improve the waterproofness and durability of the concrete waterway structure by improving the construction method of the joint of the agricultural waterway structure.

Therefore, it is possible to reduce the cost of the maintenance stage by preventing leakage of irrigation channels and drainage structures from the water source to the farmland, supplying the required amount of water to the farmland in a timely manner, and preventing civil complaints and loss of water resources due to water leakage.

1 is a photograph of a defect occurring at a joint, which is a joint of a conventional irrigation canal or drainage canal.
Figure 2 is a cross-sectional view of the improved concrete joint watertight structure of the present invention.
Figure 3 shows a filler assembly in the improved concrete joint watertight structure of the present invention.
FIG. 4 shows an accessory member having a thickness adjusting function used in FIG. 3 .
5 shows a water stop plate used in the improved concrete joint watertight structure of the present invention.
FIG. 6 shows another embodiment of FIG. 3 .

Hereinafter, the present invention will be described in more detail through an embodiment in which the concept of the present invention as described above is preferably implemented in conjunction with the accompanying drawings.

Figure 2 is a cross-sectional view of the improved concrete joint watertight structure of the present invention.

3 shows a filler assembly in the watertight structure of the improved concrete joint of the present invention, and FIG. 4 shows an accessory member used in FIG.

And Figure 5 shows a water stop plate used in the improved concrete joint watertight structure of the present invention.

The improved concrete joint watertight structure of the present invention,

For constructing or repairing joints of concrete structures including irrigation channels,

Water stop plate 100 installed so that the elastic part 110 is located in the gap (S) in the concrete joint in which the gap (S) is formed;

A filler assembly 200 installed inside the gap S so that its lower end is close to the elastic part 110;

A mesh-reinforced waterproof sheet 300 laid over the gap (S);

It is characterized in that it is configured to include.

The upper end of the filler assembly 200 is located at a predetermined depth in the gap S,

In the gap (S), the upper surface of the mesh-reinforced waterproof sheet 300 is installed by being pressed with the backup material 400 so as to be close to the upper end of the filler assembly 200,

The filler assembly 200,

It is characterized in that it is configured to include a plurality of filler units 210 and the liner 250.

In FIG. 1, the mesh-reinforced waterproof sheet 300 is usually an elastic waterproof function sheet and has a combined structure with a mesh net, so that it can reinforce the plastered mortar surface and construct the waterproof layer airtightly, and is not damaged under any new construction conditions. .

The backup material 400 is reinforced by applying a caulking material or the like. Then, a top coating process including waterproof mortar is performed on top of it.

Figure 3 shows a filler assembly in the improved concrete joint watertight structure of the present invention.

As shown,

The filler assembly 200; is,

It is composed of two or more filler units 210 formed with concavo-convex (凹凸) shaped to fit the contact surfaces corresponding to each other. In addition, when the volume is large or the width of the cross section is wide, several concavo-convex structures can be placed.

The contact surface between the two filler units 210 has a function of swelling when water enters, so that the liner 250 having excellent water retardancy and durability is installed and the liner fiber is laid.

In FIG. 3, a total of three liner 250 are laid and installed, but one liner 250 may be installed so as to be engaged with the irregularities.

The filler unit 210 is preferably made of a material having elasticity and durability with little change in physical properties even when in contact with water, such as foam rubber.

In addition, it is preferable to form teeth on the outer surface of the filler unit 210 in contact with concrete to increase adhesion with concrete and increase watertightness.

In some cases, an ordering material 250 such as ordering fiber may be laid and installed between concrete and the outer surface of the filler unit 210 including saw teeth. When the water stop plate is damaged due to the expansion and contraction of concrete, the water liner 250 can prevent water leakage by extending the water stop fiber and connecting it to the water stop plate.

FIG. 4 shows an accessory member having a thickness adjusting function used in FIG. 3 .

When one or more of the thickness control filler units 220 shown in FIG. 4 are inserted between the two filler units 210 described above and meet leaked water, the order fibers swell to become a watertight structure. It is to respond to the gap (S) of various intervals depending on the site.

Of course, depending on site circumstances, a liner material 250 such as a liner fiber may be laid and installed between the thickness adjusting filler unit 220 and the filler unit 210 .

FIG. 6 shows another embodiment of FIG. 3 .

Another embodiment of the filler assembly 200 shown in Figure 6,

A thickness adjusting filler unit 220` is installed between two filler units 210` formed and installed symmetrically with each other,

As shown in the left diagram of FIG. 6, when the thickness adjusting filler unit 220` is pressed in the state in which the filler assembly 200 is temporarily installed in the gap S, the two filler units 210` are opened to secure watertightness It is a structure.

The contact surface of the filler unit 210` and the thickness adjusting filler unit 220` is advantageous in preventing separation and securing watertightness by forming irregularities such as teeth.

Of course, depending on site circumstances, a liner material 250 such as a liner fiber may be laid and installed between the thickness adjusting filler unit 220' and the filler unit 210'.

In addition, it is preferable to form teeth on the outer surface of the filler unit 210` in contact with concrete to increase adhesion with concrete and increase watertightness.

In some cases, an ordering material 250 such as ordering fiber may be laid and installed between concrete and the outer surface of the filler unit 210' including saw teeth.

5 shows a water stop plate used in the improved concrete joint watertight structure of the present invention.

As shown in FIG. 2, a typical water stop plate

A hollow spherical elastic part 110 is located in the gap S of the concrete joint, and the elastic part 110 responds by changing its spherical shape according to the change in the gap S.

The elastic part 110 of the present invention is an improvement of the above-described conventional elastic part,

As shown in FIG. 5 (a), the reinforcing member 113 crossing the inner hollow of the elastic part 110 is integrally formed.

The reinforcing material 113 holds its shape stronger than the existing elastic parts up to a predetermined pressure, and then breaks when the predetermined pressure passes, so that the elastic parts 110 become flat, so that they can cope with a wider range of separation.

The elastic part 110 shown in FIG. 5 (b) is implemented in a folded shape and is intended to respond to a wider range of separation as shown in FIG. 5 (a).

In conclusion, as shown in FIG. 2, the present invention

The mesh-reinforced waterproof sheet 300 primarily responds to the intrusion of water with its own elasticity,

Corresponds secondarily to the first unevenness of the filler assembly 200,

Corresponding to the nth order after the second unevenness of the filler assembly 200,

It has a feature of fundamentally blocking water from reaching the water stop plate 100, which is the last line of defense.

In particular, since the bonding portion of all the components of the filler assembly 200 is laid with a liner material 250 such as a liner fiber, excellent waterproof and watertight performance is maintained.

Although the present invention has been described in relation to the preferred embodiments as mentioned above, various modifications and variations are possible within the scope without departing from the gist of the present invention, and can be used in various fields.

Accordingly, the claims of this invention include the modifications and variations which fall within the true scope of this invention.

S: Gap
100: water stop
110: elastic part
113: stiffener
200: filler assembly
210, 210`: filler unit
220, 220`: thickness control filler unit
250: liner material
300: waterproof sheet
400: backup material

Claims (3)

For constructing or repairing joints of concrete structures including irrigation channels,
Water stop plate 100 installed so that the elastic part 110 is located in the gap (S) in the concrete joint in which the gap (S) is formed;
A filler assembly 200 installed inside the gap S so that its lower end is close to the elastic part 110;
A mesh-reinforced waterproof sheet 300 laid over the gap (S);
It is characterized by comprising a,
The upper end of the filler assembly 200 is located at a predetermined depth in the gap S,
In the gap (S), the mesh-reinforced waterproof sheet 300 is pressed and installed with the backup material 400 so as to approach the top of the filler assembly 200, and the upper surface is finished. Watertight structure.
In paragraph 1,
The filler assembly 200,
An improved concrete joint watertight structure comprising a plurality of filler units 210 and a liner 250.
In claim 1 or 2,
The backup material 400 is reinforced by applying a caulking material, and a top coating process including a waterproof mortar is performed thereon.

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