KR102294467B1 - Shear Connector for Coastal Structure and Coastal Structures using the Shear Connector - Google Patents

Abstract

The present invention relates to integrally constructing surface mounting concrete and a precast parapet placed on stacked sofa blocks by using a shear connector that can be positioned in the center of the inner area of a shear pocket by post-construction, or integrally constructing the girder and precast bottom plate of a maritime pier. The shear connector includes: a first horizontal bar extending horizontally; a first curved portion extending from one end of the first horizontal bar, and curved upward in an approximately 1/4 arc shape; a first vertical bar extending from one end of the first curved portion, and extending vertically upward; a second curved portion extending from one end of the first vertical bar, and curved downward in a semicircular shape; a second vertical bar extending from one end of the second curved portion and extending vertically downward; a third curved portion extending from one end of the second vertical bar, and curved upward in a semicircular shape; a third vertical bar extending from one end of the third curved portion, and extending vertically upward; a fourth curved portion extending from one end of the third vertical bar, and curved downward in a semicircular shape; a fourth vertical bar extending from one end of the fourth curved portion, and extending vertically downward; a fifth curved portion extending from one end of the fourth vertical bar, and curved downward in an approximately 1/4 arc shape; and a second horizontal bar extending horizontally from one end of the fifth curved portion. The shear connector has an elastic force through the second curved portion, the third curved portion, and the fourth curved portion. When the shear connector enters an inner region of the shear pocket, this elastic force causes the shear connector to be compressed so that the first and second horizontal bars can easily contact anchor reinforcing bars exposed to the surface mounting concrete or the girder.

Description

Shear Connector for Coastal Structure and Coastal Structures using the Shear Connector}

The present invention relates to technologies belonging to the field of breakwater technology of international patent classification (IPC) E02B 3/06 and sofa block technology field of international patent classification (IPC) E02B 3/12, E02B 3/14. The coastal structure of the present invention may be a breakwater, a bedside concrete, a sofa block, and a marine pier. In the present invention, the upper concrete is installed on the upper part of the laminated sofa block so that a breakwater made of the sofa block can be constructed, and the parapet for preventing overbreaking is again laminated on the upper part of the installed upper concrete. Here, the upper concrete and the parapet may be formed of precast concrete. When the above concrete and the parapet are formed of precast concrete, it relates to a technology capable of combining the above concrete and the parapet by using a shear connector used for post-construction. In particular, since a shear pocket is formed on the lower plate of the parapet, the position can be adjusted by inserting a shear connector into the shear pocket. In addition, when applied to an offshore pier, the shear connector relates to a technology that can adjust the position by inserting the shear connector into the shear pocket formed on the bottom plate after a plurality of bottom plates are arranged on the girder. It is apparent to those skilled in the art that the shear connector of the present invention can be used in various ways, such as general bridges, construction blocks, and building blocks in addition to coastal structures.

With respect to Patent Document 001, a feature of the present invention is to firmly bind a plurality of precast concrete unit units made of concrete through organic coupling of the binding clamp 100 and the binding rod 200. The precast concrete unit unit may be a sofa block in the field of coastal structure technology, a floor plate in the field of bridge technology, or a retaining wall block or shore block in the field of slope reinforcement technology. The binding clamp 100 includes a first clamp 110 and a second clamp 120 , and the first clamp 110 is formed on both sides of the first support plate 111 and the first support plate 111 . Consists of a first side plate 112 erected upright or obliquely, and a first groove portion 114 and a rear side of the first clamp on the upper end of the first side plate 112 of the first clamp 110 . A first reinforcing material 115 may be installed at the rear end of the plate 112 . The second clamp 120 is composed of a second support plate 121 and a second side plate 122 erected upright or obliquely on both sides of the second support plate 121 . A second groove portion 124 may be formed at an upper end of the second side plate 122 . The first and second clamps 110 and 120 are exposed to the front part, and the rear part is embedded in the precast concrete unit unit, at this time the front part of the second clamp 120 embedded in the precast concrete unit unit is adjacent to the It is inserted into the front part of the first clamp 110 embedded in the precast concrete unit unit, and the first groove part 114 of the first clamp 110 and the second groove part 124 of the second clamp 120 are inserted. The binding rod 200 is seated so as to match in a line, and a plurality of precast concrete unit units are integrated.

With respect to Patent Document 002, a feature of the present invention is that a pair of concrete blocks for a base formed in the vertical direction and having at least a first vertical column groove with an open upper surface are installed to be spaced apart from each other, and each concrete block for a base has A base concrete block installation step in which a base fixing ring is provided on surfaces facing each other; A first binding wire rope connection step of connecting the ends of the first binding wire rope to the base fixing rings of the pair of base concrete blocks, respectively; An upper concrete block formed in a vertical direction and having a second vertical column groove that is open on both the upper and lower surfaces is installed on each of the upper portions of the pair of base concrete blocks, and the second vertical column groove is formed in the second 1 An upper concrete block installation step that is positioned on an extension line of the vertical column groove, and that each upper concrete block is provided with an upper fixing ring on a surface facing each other; a second binding wire rope connection step of connecting the ends of the second binding wire ropes to the upper fixing rings of the pair of upper concrete blocks; Filling the internal gravel between the pair of ground concrete blocks spaced apart from each other so that the first binding wire rope and the second binding wire rope are embedded in the internal gravel stone filling step; Up-and-down reinforcing bars for positioning the vertical reinforcing bars formed in the vertical direction from the top to the bottom of the second vertical column grooves to position the vertical reinforcing bars inside the second vertical column grooves and the first vertical column grooves sub-insertion step; Concrete is poured on the upper part of the second vertical column groove into which the vertical reinforcement part is inserted to form a vertical binding concrete column part continuously formed along the first vertical column groove and the second vertical direction column groove It characterized in that it comprises; forming a concrete column for vertical binding.

With respect to Patent Document 003, the feature of the present invention is to improve the connection structure such as a connecting material and a connecting plate for connecting the precast clad plate and the girder in a bridge constructed using the precast clad plate, and a crane on the precast clad plate It relates to a construction method of a bridge that can be easily installed and dismantled by entering the building and dismantled, thereby facilitating recycling and maintenance, and shortening the construction period. The present invention improves the connection structure such as a connecting material and a connecting plate for connecting the precast clad plate and the girder in a bridge constructed using a precast clad plate, and installs and dismantles the precast clad plate by introducing a crane on it And by allowing the connection material to be installed after the precast cladding is installed, the installation and dismantling of the bridge is easy, which makes recycling and maintenance easy, and the construction period can be shortened. In addition, since the connecting material may be installed later than the precast covered plate, it is easy to adjust the installation position or the horizontality of the precast covered plate. In addition, by using the precast cladding plate, there is no decrease in durability due to long-term use, noise reduction and anti-slip performance are excellent due to non-use of steel, and maintenance is unnecessary because there is no need for an upper coating.

With respect to Patent Document 004, the feature of the present invention relates to a precast concrete panel, a manufacturing method thereof, and a bridge slab construction method using the precast concrete panel. Temporary reinforcing material, which is the main cause, is manufactured by combining the temporary reinforcing material during panel manufacturing, and after moving is completed, the temporary reinforcing material is simply dismantled at the site. On the other hand, when the temporary reinforcement is separated, the cross section of the panel is formed with a number of concave grooves on the top, so that when applied to the bridge slab construction, the horizontal shear force is strengthened to maximize the composite power with the concrete poured on the top of the panel. In addition, after separation of the temporary reinforcement, the bonding member for the bonding of the temporary reinforcement is combined and used as a shear connection material. When applied to the construction of bridge slabs, it is possible to significantly improve the workability of the on-site reinforcing reinforcement work for the upper part of the panel, thereby significantly improving the workability of the bridge slab. The effect of the precast concrete panel according to the present invention, a method for manufacturing the same, and a method for constructing a bridge slab using the precast concrete panel will be described as follows. First, in order to prevent cracks during the movement of the panel, temporary reinforcing materials, which are the main cause of cracking, are combined at the time of panel manufacturing to protect them until the completion of movement. It is possible to prevent the occurrence of cracks during panel movement by solving the causes of cracks. Second, when the temporary reinforcement is separated, the cross section of the panel forms a number of concave grooves on the top, so that when applied to the bridge slab construction, the horizontal shear force can be strengthened, thereby maximizing the composite power with the concrete poured on the top of the panel. Third, after separation of the temporary reinforcement, the bonding member for the bonding of the temporary reinforcement is combined and used as a shear connection material. When applied to the construction of bridge slabs, it is possible to significantly improve the workability for on-site reinforcement work on the upper part of the panel, thereby significantly improving the workability of the bridge slab.

US 10-2215515 B1 (registration date February 05, 2021) US 10-1355805 B1 (registration date January 15, 2014) US 10-1588593 B1 (registration date January 20, 2016) US 10-1921715 B1 (registration date November 19, 2018)

In the case of conventional laminated sofa blocks, in order to construct the precast parapet on the upper surface of the concrete, a shear pocket is formed on the lower plate of the precast parapet, and these shear pockets are protruded from the upper surface of the upper concrete. Precast parapets were placed on the upper part of the standing concrete while adjusting the position through a lifting device such as a crane to match the position of the pre-fabricated shear connector. In this process, construction errors occurred, and the shear connector was not positioned in the center of the shear pocket, and it was tilted to one side and structurally unstable, leading to frequent cases of supervisory faults. In order to overcome this defect, inevitably, after removing the shear connector formed in advance on the upper part of the upper concrete, a new shear connector is re-constructed in the inner center of the shear pocket. did.

In the case of a conventional marine pier, a shear pocket is formed on the precast bottom plate to form the precast bottom plate on the upper surface of the girder, and shear connectors such as stud bolts protruding from the upper surface of the girder are inserted through the shear pocket to form a mortar. It is integrated by pouring the back. However, in protruding and extending the shear connector on the upper surface of the girder, the shear pocket, which has a limited position and size due to manufacturing errors and construction errors, is not accommodated in the disposed position, so it is placed on one side of the inside of the shear pocket, Problems such as not being included in the shear pocket area occurred, and problems of field applicability coexisted, such as deforming the shear connector or, in the extreme, removing the shear connector and re-constructing a separate anchor.

In the present invention, the shear connector used for precast concrete for in-situ coastal structures through post-construction by recognizing the above-mentioned problems of bonding between standing concrete and precast parapets and between girder and precast deck of offshore piers. We intend to develop and propose a coastal structure using the and its shear connectors.

The present invention for achieving the above object is a post-construction, using a shear connecting material that can be positioned in the center of the inner region of the shear pocket as an integrated construction or , to integrate the girder of the marine pier and the precast deck.

The shape of the post-construction in-place shear connector can be embodied as follows.

The shear connecting member includes a first horizontal bar extending horizontally, a first curved portion extending upward from one end of the first horizontal bar and curved upward in an approximately 1/4 arc shape, and extending from one end of the first curved portion to vertically upward. A first vertical bar extending, a second curved portion extending downwardly in a semicircular shape extending from one end of the first vertical bar, a second vertical bar extending from one end of the second curved portion and extending vertically downward, the second vertical A third curved portion extending from one end of the bar and curved upward in a semicircular shape, a third vertical bar extending from one end of the third curved portion and extending vertically upwardly, and one end of the third vertical bar being curved downward in a semicircular shape. A fourth curved portion, a fourth vertical bar extending vertically downward from one end of the fourth curved portion, a fifth curved portion extending from one end of the fourth vertical bar and curved downward in an approximately 1/4 arc shape, and It consists of a second horizontal bar extending horizontally at one end of the fifth curved part.

The shear connector has an elastic force through the second curved portion, the third curved portion, and the fourth curved portion. When the shear connector enters the inner region of the shear pocket by this elastic force, the first and second horizontal bars can be easily caught by the anchor reinforcement exposed on the upper surface of the upper concrete or girder by compressing the shear connector.

The shear connector pre-constructed on the upper surface of the upper concrete due to an error occurring in the process of constructing the breakwater by placing the precast parapet on the upper surface of the upper concrete by applying the upper-mounted concrete that can be combined with the post-construction shear connector of the present invention. In order to solve the problem that the position of the shear pocket of the precast parapet formed under the same conditions during designing does not match, the shear connector formed on the upper surface of the upper surface of the concrete is placed on the precast parapet and then the shear formed on the parapet is placed. By inserting through the pocket and binding to the anchor reinforcing bars of the blockout part recessed in the upper surface of the concrete, and pouring the mortar, the error problem in the connection between the precast parapet and the upper concrete caused by the conventional pre-construction shear connector can be fundamentally solved. have. In addition, the shear connector can be equally applied to the girder of the marine pier and the precast deck having the shear pocket.

1 and 2 are views showing the process of installing the upper concrete, which can be combined with the post-construction shear connector of the present invention, on top of the laminated sofa block.
Figure 3 is a view showing the process of arranging the precast parapet capable of combining the post-construction shear connector of the present invention on the upper surface of the concrete
4 is a view showing the process of connecting the precast parapet having a shear pocket of the present invention and the upper concrete with a shear connection material;
5 is a view in which a shear connector is installed on the block-out portion and the lateral anchor reinforcement and the longitudinal anchor reinforcement of the upper concrete of the present invention;
6 is a view showing a pile, a support, and a girder constituting the marine pier of the present invention;
7 is a view in which a precast deck is disposed on the upper part of the girder for offshore piers of the present invention;
8 to 10 are views in which a precast bottom plate having a shear pocket is disposed on the upper part of the pier girder for marine use of the present invention, and a shear connector is inserted into the shear pocket
11 is a view showing the components constituting the shear connector of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0023] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that various embodiments of the present invention are different but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the position or arrangement of individual components in each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all equivalents as claimed by the claims. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily practice the present invention.

As shown in FIGS. 1 to 5, the present invention uses a shear connector 400 that can be positioned in the center of the inner region of the shear pockets 310 and 810 by post-construction, as shown in FIGS. 1 to 5, on the stacked sofa blocks 100. The integrated construction of the placed concrete 200 and the precast parapet 300, or the integrated construction of the girder 700 of the marine pier and the precast floor plate 800 as shown in FIGS. 6 to 10 will be.

As shown in FIG. 11, the shape of the post-installation position shear connector 400 can be embodied as follows.

Referring to FIG. 11 , the shear connector 400 includes a first horizontal bar 401 extending horizontally, a first curved line extending from one end of the first horizontal bar 401 and curved upward in an approximately 1/4 arc shape. part 402, a first vertical bar 403 extending vertically upwardly extending from one end of the first curved part 402, and a first vertical bar extending from one end of the first vertical bar 403 and curved downward in a semicircular shape. The second curved portion 404, a second vertical bar 405 extending vertically downward from one end of the second curved portion 404, and a semicircular upward curved portion extending from one end of the second vertical bar 405 A true third curved part 406, a third vertical bar 407 extending vertically upwardly extending from one end of the third curved part 406, and a semicircular shape extending from one end of the third vertical bar 407 A fourth curved portion 408 curved downward, a fourth vertical bar 409 extending vertically downward from one end of the fourth curved portion 408 , and one end of the fourth vertical bar 409 extending to It consists of a fifth curved part 410 curved downward in an approximately 1/4 arc shape, and a second horizontal bar 411 extending horizontally at one end of the fifth curved part 410 .

When the shear connecting material 400 is erected, the second curved portion 404 and the fourth curved portion 408 are formed to be spaced apart from each other on the upper side, and the first curved portion 402 and the third curved portion are formed. 406 and the fifth curved portion 410 are formed to be spaced apart from each other on the lower side. In addition, the first horizontal bar 401 and the second horizontal bar 411 are in contact with the anchor reinforcement exposed to the coastal structure, and the second curved portion 404, the third curved portion 406 and the The shear connector 400 has an elastic force through the fourth curved portion 408 . When the shear connector 400 enters the inner region of the shear pockets 310 and 810 by this elastic force, the shear connector 400 is compressed to connect the first and second horizontal bars 401 and 411 to the coastal structure. Precise construction is possible because it can be easily contacted with the anchor rebar exposed on the upper surface of the concrete or girder, and the total construction cost can be made the same as that of general construction by saving labor costs and shortening the construction period because construction is easy even after construction. have.

As shown in FIGS. 1 to 5 , a case in which the coastal structure is a breakwater will be described.

As shown in Figure 1, the sofa block 100 is constructed on the upper part of the sofa block structure in which a plurality of sofa blocks are stacked. The standing concrete 200 may be manufactured by casting on site or precast.

As shown in FIG. 2, it is obvious to those skilled in the art that the cast-in-place concrete 200 can use the upper-mounted concrete formwork 210. As shown in FIG.

As shown in FIG. 3 , when the construction of the upper concrete 200 is completed, the parapet 300 is disposed on the upper surface of the upper concrete 200 . The parapet 300 is a coastal structure having a function of preventing the over-wave of waves incident from the open sea, and may be manufactured by precast.

As shown in FIG. 4 , one or more shear pockets 310 are installed on the lower plate of the parapet 300 , and a concave groove-shaped blockout 210 is formed on the upper part of the upper concrete 200 . The shear pocket 310 should be disposed to correspond to the block-out 210 . Anchor reinforcing bars (not shown) are arranged in the block-out 210 .

The shear connector 400 passes through the shear pocket 310 and enters the blockout 210, and the first horizontal bar 401 and the second horizontal bar 411 of the shear connector 400 are attached to the anchor reinforcing bar. ) is contacted.

As shown in FIG. 5, when mortar is injected into the inlet of the shear pocket 310 of the parapet 300, the blockout 210, the shear connector 400, and the shear pocket 310 are filled with mortar. , the parapet 300 and the upper concrete 400 are integrated through the shear connector 400 .

As shown in FIGS. 6 to 10, a case in which the coastal structure is a pier for offshore will be described.

As shown in FIG. 6 , a plurality of piles 500 are constructed to stand on the sea floor, and a support 600 is installed on the top of the piles 500 . A girder 700 is disposed on the upper portion of the support 600 .

As shown in FIG. 7 , when the girder 700 is disposed, the bottom plate 800 is disposed on the upper surface of the girder 700 . The bottom plate 800 may be manufactured by precast.

As shown in FIG. 8 , one or more shear pockets 810 are installed on the bottom plate 800 , and a concave groove-shaped blockout 710 is formed on the upper portion of the girder 700 . The shear pocket 810 should be disposed to correspond to the block-out 710 . Anchor reinforcing bars (reference numerals not described) are arranged in the block-out 710 .

As shown in FIGS. 9 and 10, the shear connector 400 passes through the shear pocket 810 and enters the blockout 710, and the first horizontal bar of the shear connector 400 to the anchor reinforcing bar ( 401) and the second horizontal bar 411 are in contact. By injecting mortar into the entrance of the front pocket 810 of the bottom plate 800, the blockout 710 of the girder 700, the shear connector 400, and the shear pocket 810 of the bottom plate 800 When the mortar is filled, the bottom plate 800 and the girder 700 are integrated through the shear connector 400 .

The shear connector 400 may be partially embedded in the upper concrete 200 or the girder 700 by pre-construction as needed.

100: sofa block
200: Sangchi concrete
300: parapet
400: shear connector
500: file
600: support
700: girder
800: bottom plate

Claims (3)

In the shear connector 400 for coastal structures,
The shear connection material 400,
a first horizontal bar 401 extending horizontally;
a first curved portion 402 extending upwardly in an approximately 1/4 arc shape extending from one end of the first horizontal bar 401;
a first vertical bar 403 extending vertically upward from one end of the first curved portion 402; a second curved portion 404 extending downward from one end of the first vertical bar 403 and curved downward in a semicircular shape; a second vertical bar 405 extending vertically downward from one end of the second curved portion 404; a third curved portion (406) extending from one end of the second vertical bar (405) and curved upward in a semicircular shape; a third vertical bar 407 extending vertically upward from one end of the third curved part 406; a fourth curved portion 408 extending downward from one end of the third vertical bar 407 and curved downward in a semicircular shape; a fourth vertical bar 409 extending vertically downward from one end of the fourth curved portion 408; a fifth curved portion 410 that extends from one end of the fourth vertical bar 409 and is curved downwardly in an approximately 1/4 arc shape;
and a second horizontal bar 411 extending horizontally to one end of the fifth curved part 410;
the second curved portion 404 and the fourth curved portion 408 are formed to be spaced apart from each other;
the first curved portion 402, the third curved portion 406 and the fifth curved portion 410 are formed to be spaced apart from each other;
The first horizontal bar 401 and the second horizontal bar 411 are shear connectors for coastal structures, characterized in that they are in contact with the anchor reinforcing bars exposed to the coastal structures. In the breakwater using the shear connector for coastal structures of claim 1,
The coastal structure with the exposed anchor reinforcing bars is a standing concrete 200;
A parapet 300 having a shear pocket 310 is disposed on the upper part of the upper concrete 200;
The breakwater, characterized in that the upper concrete (200) and the parapet (300) are coupled through the shear connecting material (400) In the marine pier using the shear connector for coastal structures of claim 1,
The coastal structure with the exposed anchor reinforcement is a girder (700);
A bottom plate 800 having a shear pocket 810 is disposed on the upper portion of the girder 700;
The girder 700 and the bottom plate 800 are marine piers, characterized in that they are coupled via the shear connector 400

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