KR100316850B1 - Waterproofing structure at joints between precast concrete segment block - Google Patents

Abstract

The present invention discloses a joint waterproof structure of a concrete block.

The present invention forms concave grooves on both sides of the precast concrete segment blocks facing each other, a pair of concave grooves facing each other to form a tube groove, an inflatable tube is installed along the shape of the tube groove, Filling the tube has the advantage of ensuring the waterproof of the joint.

Description

WATERPROOFING STRUCTURE AT JOINTS BETWEEN PRECAST CONCRETE SEGMENT BLOCK}

The present invention relates to a joint waterproof structure of a precast concrete segment block, and more particularly, to a joint waterproof structure of a precast concrete segment block in which an inflatable tube is inserted into a joint of a concrete block to improve waterproof performance. will be.

Precast underground box structure construction method is a method that precast concrete segment blocks (hereinafter referred to as concrete blocks) are made in advance in a factory equipped with equipment and transferred to the construction site for continuous assembly. The tunnel safety, constructability and standardization can be achieved. And it is used a lot because it can improve the working environment of construction site. Conventional open-type tunnel construction is mainly used to excavate the ground, form a mold, and cast concrete therein. However, this is a site casting method that requires a long tunnel construction period and high labor intensity. It leads to the avoidance of work and the increase of labor costs, and the deterioration of the beauty and environment around the construction site. The precast underground box structure construction method is an underground box structure construction method that can solve most of these problems, and is particularly suitable for the construction in a complicated urban center.

On the other hand, the tunnel buried in the underground space is used as a communication port, power outlet. A plurality of coaxial cables and optical cables and the like are installed in the communication or power port, and various auxiliary devices for controlling and managing them are installed. Therefore, it is very important for the tunnel used for such a purpose to ensure the waterproof and moistureproof functions from the groundwater contained in the ground. In the construction method of precast underground box structure, the watertight joining technique of the joint is very important because water flows into the tunnel through the joint to which the concrete block is connected.

The joint waterproofing structure according to the prior art is mainly provided with a water-expansion index material in one layer or more in the joint, or injecting mortar between the joints. As is known, the water-expandable index material utilizes the characteristics of a rubber having a specific property of absorbing and expanding water.

However, the bonded structure using the water-expandable index member has a disadvantage in that the water-repellent index member has a limit in repetitive shrinkage drying effect, and thus the waterproof performance deteriorates with time. There are many drawbacks.

In addition, the joint structure in which mortar is injected is a space formed by joining two concrete blocks with the space where the mortar is injected, and thus the mortar is leaked due to the gap between the joints. In order to increase the coupling precision of the joint, there is a disadvantage that the work becomes difficult.

Therefore, the present invention is to solve such a conventional problem, by inserting an inflatable tube in the joint of the concrete block not only can block the moisture contained in the ground penetrating into the tunnel, but also easy to install concrete block The purpose is to provide a waterproof structure of the seams of the joint.

The present invention for achieving the above object in the waterproof structure of the joint portion of the precast concrete segment block, each of the concave grooves formed on both sides of the precast concrete segment block facing each other, a pair of concave grooves facing each other It is closely attached to form a tube groove, and an expandable tube is installed along the shape of the tube groove, and the joint part of the precast concrete segment block is filled with a non-shrink mortar filler to secure the waterproofing of the joint portion. Provide waterproof structure.

According to a preferred embodiment of the present invention, the inflatable tube is inserted into the tube groove is characterized in that it comprises a plurality of inlet for injecting the filler, and the inspection hole for inspecting the air discharge and filling inside the tube.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

1 is a partial side view showing the waterproof structure of the joint of the concrete block according to the present invention,

Figure 2 is a front view showing a state in which the tube is inflated in the joint according to the invention,

3 is a cross-sectional view taken along line AA ′ of FIG. 1 according to the present invention;

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

10 concrete block 12 joint

14: concave groove 16: tube

18: tube groove 20: filling material

22: injection hole 24: inspection port

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

1 is an exploded perspective view showing the waterproof structure of the joint portion of the concrete block according to the present invention, Figures 2 and 3 are a front view and a cross-sectional view showing a state in which the tube is expanded in the joint portion according to the present invention.

Concrete block 10a according to an embodiment of the present invention forms a rectangular parallelepiped shape with a space provided therein, and forms a shape in which both surfaces facing in the longitudinal direction are opened. Open both sides, that is, the seam 12 is connected to the other concrete block 10b to extend the length of the tunnel.

As described above, the concrete block 10 is made in advance in the factory equipped with the facility according to the precast underground box structure construction method to be moved to the construction site.

In particular, according to a preferred feature of the present invention, the concave grooves 14 are formed in each of the joints 12 of the concrete block 10, a pair of concave grooves 14 facing each other are in close contact with each other during the tunnel construction tube The groove 18 is formed. An expandable tube 16 is installed along the shape of the tube groove 18, and the expandable tube 16 is provided with a plurality of inlets 22 for injecting the filler 20 therein, and the tube ( 16) is provided with an inspection port 24 for inspecting whether the air discharge and filling inside. According to the preferred embodiment of the present invention, the injection hole 22 is installed at the lower end of the tube groove 18 so that the air in the tube 16 can be smoothly discharged when the filler 20 is injected, the inspection hole 24 Is preferably installed on top.

In the preferred embodiment of the present invention, as the filler 20, non-shrink mortar that can be fixed in a filled state is used, but those skilled in the art will be able to select and use other suitable filling materials.

As shown in FIG. 1, the first joint part 12a of the first concrete block 10a and the second joint part 12b of the second concrete block 10b face each other during the tunnel construction. And first and second concave grooves 14a and 14b are formed in the second joint portions 12a and 12b, respectively. As the first and second joint portions 12a and 12b facing each other closely adhere to each other during the tunnel construction, the first and second concave grooves 14a and 14b form one tube groove 18.

On the other hand, as shown in Figure 2, the tube groove 18 formed in this way is provided with an expandable tube 16, the tube 16 is a joint of the first and second concrete blocks (10a, 10b) (12) is housed in the concave groove 14 on either side before being in close contact. As such, the tube 16 accommodated in the tube groove 18 is infused with the filler 20 through the injection hole 22, that is, non-contraction mortar, to expand along the shape of the tube groove 18. On the other hand, as the non-shrink mortar is filled in the tube 16, the air existing in the tube 16 is discharged through the test port 24, the test port 24 is the upper end of the tube groove 18 Since it is located in the inspection port 24 it can be confirmed whether the non-contraction mortar is completely filled in the tube (18).

Such action and effect of the joint waterproof structure of the concrete block according to the present invention is as follows.

The first concrete block 10a is embedded in the excavated ground, and the tube 16 which is not yet expanded is inserted into the recess 14a formed in the joint portion 12a of the first concrete block 10a. At this time, the injection hole 22 of the tube 16 is located at the lower end of the recess 14, the inspection hole 24 is located at the upper end.

Next, the second concrete block 10b is embedded in the longitudinal direction so that the joint 12a of the first concrete block 10a and the joint 12b of the second concrete block 10b face each other. At this time, the first concave groove 14a and the second concave groove 14b are in close contact with each other to form a tube groove 18, and the tube 16 in an unexpanded state is maintained therein. do. On the other hand, even if the joint portion 12 of the embedded concrete block 10 is as close as possible, it is natural that a slight void is generated, a slight gap is also generated in the tube groove 18.

Subsequently, non-contraction mortar is injected through the injection port 22. The tube 16 is inflated in close contact with the inner wall surface of the tube groove 18 fixed in the already embedded state. As the mortar is filled, the air inside the tube 16 is discharged through the test hole 24, and the test hole 24 may be used to inspect whether the mortar is completely filled in the tube 16. After filling the tube 16 with mortar completely, the injection hole 22 and the inspection hole 24 are sealed.

By repeating this method, the concrete blocks 10 are connected to each other to complete a desired precast tunnel construction.

Thus, the waterproof structure of the joint part 12 of the concrete block 10 using the expandable tube 16 is formed according to the shape of the joint part 12 including the gap even if a gap exists between the joint parts 12. ) Is fluidly expanded to achieve complete waterproofing. In addition, since the mortar is injected into the tube 16, the mortar does not leak into the gap, thereby reducing unnecessary waste of the mortar. In addition, since the mortar is evenly injected into the tube 16, the shear strength of the constructed tunnel can be improved, and the allowable gap range of the joint part 12 can be extended during the embedding work, thereby improving workability. have.

In the above description, it should be understood that those skilled in the art can only make modifications and changes to the present invention without changing the gist of the present invention as it merely illustrates a preferred embodiment of the present invention.

As described above, according to the present invention, the waterproof structure of the joint portion of the concrete block using the expandable tube can obtain the effect of improving workability by simple waterproof construction, and the effect of ensuring excellent waterproof performance of the joint portion You can get it.

Claims (4)

In the waterproof structure of the joint of precast concrete segment block, Concave grooves are formed on both sides of the precast concrete segment blocks facing each other, A pair of concave grooves facing each other is in close contact to form a tube groove, An inflatable tube is installed along the shape of the tube groove, Waterproof structure of the joint portion of the precast concrete segment block is filled with the filler in the tube. The method of claim 1, The inflatable tube is a waterproof structure of the joint portion of the precast concrete segment block, characterized in that it comprises a plurality of inlets for injecting the filler and the inspection hole for inspecting the air discharge and filling inside the tube. The method of claim 1, The filler is waterproof structure of the joint portion of the precast concrete segment block, characterized in that the non-shrink mortar. The method of claim 2, The injection hole is installed at the lower end of the tube groove, the inspection port is waterproof structure of the joint portion of the precast concrete segment block, characterized in that installed on the top.