KR200268874Y1 - Concrete block using a stop-seal for underwater dam - Google Patents

Abstract

The present invention relates to an index ring concrete block structure for underwater water barriers, the present invention, in the concrete block is installed on the shore or lake, the base rubble is formed on the bottom of the soil surface in contact with the shore or lake and the foundation Rubble is formed in the upper part of the base concrete, the above-mentioned concrete concrete is stacked in the three types of concrete blocks are sequentially stacked on the top, while the concrete block 1 is installed at the bottom is formed with an upper protrusion behind the upper surface , The concrete block 2 installed in a plurality of layers in the middle portion is formed with an upper protrusion formed at the rear of the upper surface and a lower inner groove bent inward at the rear of the lower surface. A lower inner groove is formed to be bent, and each concrete block 1, 2, 3 is stacked to submerged water structure The through-holes are formed in the concrete blocks 1, 2, and 3 so that the steel rod anchors are connected to the joints at one side of the concrete blocks, and two through holes are formed. The concrete blocks 1, 2, and 3 do not flow, and the concrete block 1 has an index ring slit groove formed at a side and an upper surface at the other front, and the concrete block 2 has an index ring slit groove of the concrete block 1 An index ring slit groove is formed in the side and the upper surface and the lower surface of the matched position, the concrete block 3 is formed in the lower surface of the position coincides with the index ring slit groove of the concrete block 2, The above concrete blocks 1, 2, 3 is an index ring concrete for underwater water barriers, characterized in that the joint is in close contact with the state in which the index ring is inserted into the index ring slit groove. It provides a rock structure.

Description

CONCRETE BLOCK USING A STOP-SEAL FOR UNDERWATER DAM}

The present invention relates to an index ring concrete block structure for underwater water barriers, and more specifically, to install a concrete block after excavation to the bottom of the underwater surface and insert the index rubber ring in the upper, lower and side portions of the concrete block. By preventing the leak, and fastening the clip anchor on the back of the concrete block relates to an index ring concrete block structure for underwater water barrier to complete the construction.

In general, the Korean water barrier structure is used in the state of construction using sheet piles or underwater concrete blocks on the shore or lake.

1 is a view showing the structure of a conventional underwater water barrier, in which concrete blocks are laminated in multiple layers by being connected to the soil surface (S) of the shore or lake, where the soil surface (S) is formed vertically, and the base rubble (10) is formed, the foundation rubble (10) is formed on the top of the base concrete 12, the base concrete (12) is stacked in a multi-layer concrete block on the top.

The concrete block is stacked in three types, the concrete block 1 (20) is installed at the bottom of the block is a block formed with an upper protrusion 24 in the center of the upper surface, concrete block 2 ( 30 is a block in which the upper protrusion 34 is formed at the center of the upper surface and the lower inner groove 36 is bent inwardly at the center of the lower surface, and the concrete block 3 40 installed at the top is disposed at the center of the lower surface. The concrete blocks 1, 2, 3 (20, 30, 40) are sequentially stacked as blocks having lower inner grooves 46 that are bent inwards to form a water barrier structure.

In FIG. 1, the soil slope S is illustrated as a dot to clarify the description in the drawing, and the concrete block 2 is illustrated by a dotted line to explain its structure.

In the above-described conventional underwater water barrier structure, a leak occurs at the joint portion where each concrete block is in close contact with each other, and therefore, a huge cost is required for the water extraction construction during the installation work, while the concrete block is difficult to install. , Even when the concrete block is installed, there is a problem of loss of soil in the coast or lake shore.

The present invention, in order to solve the above problems, the present invention, by changing the structure of the concrete block is installed on the shore or lake to prevent the leakage caused by the existing water film structure to the maximum, whereby the water generated during construction It is possible to completely prevent work, especially the index ring concrete block structure for underwater water barriers, which has a structure that can completely solve the settlement problem of the soil which occurred in the coastal or lake soil surface and secure the maximum construction safety for the concrete block. To provide for that purpose.

The present invention, in order to achieve the above object, the present invention, in the concrete block is installed on the shore or lake, the base rubble is formed at the bottom of the soil surface in contact with the shore or lake and the top of the base rubble Foundation concrete is formed in the above-mentioned concrete, the concrete blocks made of three types are sequentially stacked on the base concrete, while the concrete block 1 installed at the bottom is formed with an upper protrusion behind the upper surface, the middle portion The concrete block 2 installed in multiple layers has an upper protrusion formed at the rear of the upper surface and a lower inner groove bent inward at the rear of the lower surface, and the concrete block 3 installed at the upper has a lower portion bent inward at the rear of the lower surface. An inner groove is formed, and each concrete block 1, 2, 3 is stacked to form an underwater water barrier structure. The through blocks 1, 2, and 3 are formed with two through-holes, respectively, so that the rod anchors can be connected to the joints at one side of the one side, and the clip anchors and the fastening plates are coupled to the rod anchors by hydraulic pressure. 2,3 does not flow, the concrete block 1 is formed in the front side and the index ring slit groove on the side and the upper surface, the concrete block 2 in the side of the position coinciding with the index ring slit groove of the concrete block 1 And an index ring slit groove is formed on the upper surface and the lower surface, and the concrete block 3 is formed with an index ring slit groove on the lower surface of the concrete block 2 that matches the index ring slit groove of the concrete block 2, and the concrete block 1 2, 3 provides an index ring concrete block structure for underwater water barriers, characterized in that the joint is in close contact with the index ring is inserted into the index ring slit groove.

1 is a view showing a conventional underwater water barrier structure.

Figure 2 is a view showing a structure for underwater water barrier using an index ring of the present invention.

Figure 3 is an exploded state diagram of the structure for underwater water barriers of the present invention.

<Brief description of symbols for the main parts of the drawings>

50: foundation rubble 52: foundation concrete

60: concrete block 1 64,74: upper protrusion

68,78,88: Index ring slit hole 70: Concrete block 2

76,86: lower seating portion 80: concrete block 2

90: index ring 92: steel bar anchor

94: clip anchor 96: fastening plate

98: through hole S: earth surface

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

2 is a view showing a structure for underwater water using a water ring of the present invention, the foundation rubble 50 is formed on the bottom of the earth surface (S) and the foundation rubble 50 is formed on the top of the base rubble 50 ) Is formed.

In the base concrete 52, a concrete block made of various types on the top is sequentially stacked from the bottom to the top to form an underwater water barrier structure.

At this time, the concrete block is formed in three types, the concrete block 1 (60) is installed at the bottom of the upper block is a block formed with the upper projection (64) in the rear (right side in the drawing), a plurality of layers in the middle Concrete block 2 (70) to be installed is a block formed with a lower inner groove 76 is formed in the upper protrusion rear portion 74 is formed in the rear of the upper surface and bent inward in the rear of the lower surface, the concrete block 3 ( 80 is a block formed with a lower inner groove 86 that is bent inward to the rear of the lower surface. Each concrete block 1, 2, 3 (60), 70, 80 is sequentially stacked from the bottom to form a water barrier structure. On the other hand, each concrete block 1, 2, 3 (60) 70, 80 is fixed to the clip anchor 94 is fastened to the steel rod anchor 92 fastened to the joint.

In addition, the concrete blocks 1, 2, 3 (60, 70, 80) is provided with an index ring 90 in the front portion so that the fluid can not penetrate into the soil surface (S) in the sea or river.

Figure 3 is an exploded state diagram of the structure for underwater water barriers of the present invention, the concrete block 1, 2, 3 (60) (70) (80) is to be installed by connecting a steel rod anchor 92 to the joint at one side rear Two through holes 98 are formed to each other, and the steel bar anchors 92 are coupled to the clip anchors 94 and the fastening plate 96, so that the concrete blocks 1, 2, 3 (60) (70) by hydraulic pressure. 80 does not flow.

In addition, the concrete block 1 (60) is formed with water ring slit grooves 68 on the side and the upper surface in the other front (surface in contact with the sea or river side), the concrete block 2 (70) in the concrete block 1 The index ring slit groove 78 is formed on the side, the upper surface and the lower surface which is the position coinciding with the index ring slit groove 68 of the 60, the concrete block 3 (80) in the concrete block 2 (70) An index ring slit groove 88 is formed on the lower surface of the position corresponding to the index ring slit groove 78.

Since the joint block is coupled to the concrete blocks 1, 2, 3 (60, 70, 80) in the state where the index ring 90 is inserted into the index ring slit grooves 68, 78, 88, the sea or The fluid on the river side does not pass through the concrete blocks 1, 2, 3 (60), 70, 80 to the soil surface side.

In the above-described structure for underwater cladding, each concrete block 1, 2, 3 (60) (70) (80), after the excavation of the foundation concrete (52) after excavation to the bottom surface of the water, 52, the concrete blocks 1, 2, 3 (60) (70) (80) are laminated to form a 90 ° angle with the soil surface (S), the concrete blocks 1, 2, 3 (60) ( The fluid of the sea or river side does not flow into the soil surface (S) because the water ring 90 is in close contact with the water ring slit grooves 68, 78 and 88 of the upper, lower and side portions of the 70, 80. In particular, the concrete block 1, 2, 3 (60) (70) (80) is a clip anchor 94 and the fastening plate 96 is fastened to the steel rod anchor 92 formed in the joint portion of the rear surface The concrete blocks 1, 2, 3 (60, 70, 80) are not flowing due to the hydraulic pressure is formed in the structure.

The effect of the configuration and operation of the present invention described above will be described.

The water ring concrete block structure for underwater water barrier of the present invention is inserted into the concrete blocks 1, 2, and 3 while inserting the water ring to prevent the occurrence of defects due to leakage of the existing water barrier system when the sea or river is blocked. In order to prevent accidents that may occur during construction during the construction of the Korean construction can be secured to the maximum safety due to the construction while fastening the steel bar anchor, clip anchor and fastening plate.

Claims (1)

In the concrete block installed on the shore or lake, the foundation rubble 50 is formed on the bottom of the soil surface (S) in contact with the shore or lake, and the foundation rubble 50 is formed on the base rubble 50 above. Is formed, the above-mentioned concrete blocks are made of three types of concrete blocks are sequentially stacked on top of the concrete, while the concrete block 1 (60) is installed at the bottom of the upper projections 64 at the rear of the upper surface It is formed, the concrete block 2 (70) which is installed in a plurality of layers in the middle portion is formed with a lower inner groove (76) is formed in the upper projection portion 74 is formed in the rear of the upper surface and bent inward in the rear of the lower surface, Concrete block 3 (80) to be installed is formed with a lower inner groove 86 is bent inward to the rear of the lower surface, each concrete block 1, 2, 3 (60) (70) (80) is laminated to the underwater water barrier The structure is formed, the concrete blocks 1, 2, Three through holes 98 are formed in each of the three (60), (70) and (80) so that the steel rod anchor (92) is connected to the joint portion at one side and the clip anchor is formed in the steel rod anchor (92). (94) and the fastening plate 96 is coupled to the concrete blocks 1, 2, 3 (60), 70, 80 does not flow by the hydraulic pressure, the concrete block 1 (60) is the other front (sea or On the surface in contact with the river side) an index ring slit groove (68) is formed on the side and the upper surface, the concrete block 2 (70) of the position corresponding to the index ring slit groove (68) of the concrete block 1 (60) The index ring slit groove 78 is formed on the side surface, the upper surface and the lower surface, the concrete block 3 (80) in the lower surface of the position coinciding with the index ring slit groove 78 of the concrete block 2 (70). An index ring slit groove 88 is formed, and the concrete blocks 1, 2, 3 (60, 70, 80) are provided with index ring slit grooves 68, 78, 88 in the index ring 90. The joint is tightly inserted Indexing concrete block structure for underwater water curtains, characterized in that the combined structure.