KR102039092B1 - Expansion joint for reinforcing post-placing concrete and method therefor - Google Patents

Abstract

The present invention relates to an expansion joint for reinforcing post-placing concrete and a construction method thereof, wherein the expansion joint can improve deformation due to creep and drying shrinkage of post-placing concrete and attachment performance of the post-placing concrete during installation of a finger plate of the expansion joint, and can reinforce the post-placing concrete. The expansion joint includes a tramping plate unit installed to be extended in a longitudinal direction on a bottom surface of an L-shaped angle member to which the finger plate is fixed and installed.

Description

Expansion joint with reinforcement of futa concrete and construction method {EXPANSION JOINT FOR REINFORCING POST-PLACING CONCRETE AND METHOD THEREFOR}

The present invention relates to an expansion joint device for reinforcing futa concrete and a construction method thereof. More specifically, the futa concrete attachment performance can be improved when the finger plate of the deformation and dry shrinkage of the futa concrete and the expansion joint are installed, and the futa concrete reinforcement is possible for the expansion joint device and the construction method thereof. It is about.

Figure 1a is a photograph of the construction of futa concrete constructed to contact the conventional finger-type expansion joint device.

It can be seen that there is a gap in the boundary portion of the expansion joint device 10 made of steel and the futa concrete 20 due to the concrete pouring, and the water 30 penetrates to cause corrosion 30.

In other words, steel and concrete are difficult to integrate because they are different materials, but since the shape of the site where the futa concrete 20 and the expansion joint 10 are in contact is complicated, the filling and compaction are not performed. A large number of cavities occur in the cavities, and the load caused by the traffic is applied to the cavities where the cavities are generated. As a result, the futa concrete is broken and a gap is generated. Done.

In addition, the gap is further extended as time passes and is formed in the shape of a groove, which hinders the traffic of the vehicle and also causes a risk of a safety accident.

In connection with the defects generated during the construction of the expansion joint device 10 and the futa concrete 20, conventionally, the futa concrete is crushed and removed, and the damaged expansion joint device is replaced again, and the futa concrete is used again. However, if time passes, there is a limit that a defect may occur again.

Figure 1b is a cross-sectional view of the construction of the expansion joint device that can replace the expansion joint device without breaking the conventional futa concrete.

In other words, it is a method for replacing the expansion joint device without breaking the futa concrete as to solve the problems of cost and effectiveness due to the crushed concrete.

In order to be embedded in the futa concrete 20, but the upper portion is formed of a plurality of connecting steel 34 so as to be exposed to the expansion joint connection portion, and the expansion joint 10 is connected to the connecting steel 34 and installed, Between the expansion joint device 10 and the futa concrete 20 is to form a waterproof filler.

The expansion joint 10 and the futa concrete 20 is connected by the non-exposed connection steel 34 to the road surface because it can be seen that there is no need to crush the futa concrete for the expansion joint replacement have.

However, even in such a case, the futa concrete 20 is not filled and compacted in many cases, and a lot of cavities occur, and a load caused by the traffic of the vehicle acts on the part where the cavities occur, resulting in breakage of the futa concrete and a gap. If water flows into these gaps, there is a limit that corrosion of steel expansion joints will occur.Futa concrete can be firmly secured while futa concrete can be firmly used in the construction of finger joints. There is no other way to reinforce.

Republic of Korea Utility Model Registration No. 20-0280784 (Invention name: Concrete non-disassembly assembled expansion joint device, published date: July 13, 2002)

In the present invention, the finger-type expansion joint is made of steel material, the concrete contact with the futa concrete can be compacted, it can be reinforced while expanding the contact area between the finger expansion joint and the futa concrete, maintenance is possible It is a technical problem to solve the provision of expansion joint device and construction method that can be reinforced futa concrete advantageous.

Futa concrete reinforcement expansion joint device of the present invention for achieving the above object,

In the expansion joint device capable of reinforcing the futa concrete that absorbs the expansion and contraction of the concrete slab while overlapping the finger plates fixedly installed on the upper surface of the angled member, the finger plate is fixed in the longitudinal direction to the bottom surface of the angled member And a compaction plate part installed to extend, in the process of fixing the finger plate to the horizontal plate of the L-shaped angle member by fixing bolts, so that the futa concrete C and the compaction plate part directly below the horizontal plate are in direct contact with each other. ,
The finger plate is overlapped with each other horizontal finger absorbing portion to stretch; And a horizontal plate which is integrally formed with the horizontal finger and serves to fix the horizontal finger to the upper surface of the horizontal plate of the angled angle member, and the horizontal body which is fixed to the upper surface of the horizontal plate of the angled angle member by a fixing bolt. The connecting end surface A of the horizontal body portion includes a corrugated protrusion A1 as a corrugated end surface, and a futa as a connecting bolt extending downward through the corrugated protrusion A1 of the finger plate. The connecting end surface (A) of the horizontal body portion is fixed to the concrete (C) while providing a flexible joint reinforcement capable of reinforcing the futa concrete is formed a futa connecting material to reinforce the futa concrete (C).

The construction method of the expansion joint device capable of reinforcing futa concrete of the present invention for achieving the above object,

(a) installing the expansion joint device in which the finger plate on which the compact plate is formed on the bottom of the horizontal plate of both angled members is removed from the block-out portion B formed at the slab end of the bridge; And (b) in the process of fixing the finger plate to the horizontal plate of the L-shaped angle member by fixing bolts, making the futa concrete (C) and the compaction plate part of the horizontal plate directly contact each other. The plate part is formed on the bottom of the horizontal plate of the angled member with rubber plates in the longitudinal direction of the expansion joint so that the bottom of the steel plate and the futa concrete (C) are not separated from each other. To bend downward,
In the finger plate of step (a), the connection end surface A of the horizontal body portion which is integrally formed with the horizontal finger portion is a wave shaped end surface, and a wave shaped protrusion A1 is formed, and the wave shaped protrusion A1 of the finger plate is formed. As the connecting bolt extending downwards to be connected to the futa concrete (C) to be fixed to the connecting end surface (A) of the horizontal body portion to form a futa connecting material to reinforce the futa concrete (C).

According to the futa concrete reinforcement expansion joint device and construction method of the present invention, it is possible to control the quality of futa concrete placing work, and to provide a futa concrete reinforcement expansion joint device and construction method that can reduce defect repair. It becomes possible.

According to the futa concrete reinforcement expansion joint device and the construction method of the present invention can easily install the futa connector using a finger plate construction and workability can be secured.

According to the expansion joint device and the construction method of the futa concrete reinforcement of the present invention, compaction of the futa concrete can be carried out by simply forming the compaction plate portion in the form of a band of rubber material in the longitudinal direction.

Figure 1a is a futa concrete construction photograph constructed to contact the conventional finger-type expansion joint device,
Figure 1b is a cross-sectional view of the expansion joint device construction that can replace the expansion joint device without breaking the conventional futa concrete,
Figure 2a and 2b is a perspective view and construction of the expansion joint device capable of reinforcing the futa concrete of the present invention,
Figure 3a and 3b is a flow chart of the construction method of the expansion joint can be reinforced futa concrete of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

[Future concrete reinforcement expansion joint apparatus 100 of the present invention]

2a and 2b is a perspective view showing the configuration and completion perspective view of the expansion joint device 100 capable of reinforcing the concrete of the present invention.

In the futa concrete reinforcement expansion joint device 100 of the present invention, the futa concrete (C) is poured, and fixed to the A-shaped angle member 110, the finger plate 120 using a fixed bolt, Futa concrete contacting the bottom surface of the a-angle angle member 110, or the compaction plate portion 150 to prevent the futa concrete of the bottom of the a-angle angle member 110 is separated from each other by creep, dry shrinkage of the futa concrete ) Is additionally installed on the bottom surface of the A-shaped angle member 110, and the expansion joint device 100 is additionally reinforced with the futa concrete C using the futa connector 160.

The futa concrete reinforcement expansion joint device 100 is as shown in Figure 2a and 2b, as a finger-type expansion joint device a-shaped angle member 110, finger plate 120, rear vertical angle portion 130, It is configured to include a vertical support rod 140, compaction plate 150, futa connector (160).

First, the L-shaped angle member 110 is fixedly installed to face each other from side to side to the left and right ends of the slab 200 of the bridge, as shown in Figure 2a and 2b stretched by stretching a portion of the slab 200 of the bridge The space for installing the joint device 100 is continuously formed in the transverse direction, and the expansion joint device 100 is naturally installed in the process of installing the space in the space, the expansion joint device 100 is fixed for transport and installation Since it is made of a length is formed extending in the a cross-section corresponding to the extension length of this expansion joint device (100).

The a-shaped angle member 110 is formed in a cross-section including a vertical plate 111 and a horizontal plate 112, the vertical plate 111 is installed so as to be spaced apart from each other, the finger on the upper surface of each horizontal plate 112 The plate 120 is fixed by the fixing bolt, the bottom of the vertical support rod 140 is also fixed by the fixing bolt is required bolt holes are formed in the horizontal plate 112.

In addition, the vertical plate 111 is formed with a bolt hole so that the upper end of the U-shaped expansion joint material 113 is fixed by a fixing bolt, the space between the spaced end of the slab 200 of the bridge is U-shaped expansion joint material 113 ), So that foreign substances, infiltration water, etc. can be induced drainage.

The finger plate 120 is fixed to the upper surface of the horizontal plate 112 of the L-shaped angle member 110, as shown in Figure 2a and 2b is fixed by the fixing bolt between the spaced end of the slab 200 of the bridge Rejection 121 serves to absorb the expansion and contraction of the slab 200 of the bridge while overlapping each other, fixing bolts on the horizontal plate of the angled member (110) set first in the futa concrete (C) The final assembly is fixed and installed.

Accordingly, the finger plate 120 includes a horizontal finger portion 121 and a horizontal body portion 122.

Accordingly, the horizontal finger portion 121 is formed so that a plurality of finger portions are formed in a waveform form so as to absorb the stretching of the slab 200 of the bridge while overlapping with the horizontal horizontal finger portion 121 facing each other.

The horizontal body portion 122 is a horizontal plate formed integrally with the horizontal finger portion 121 serves to fix the horizontal finger portion 121 to the upper surface of the horizontal plate 112 of the L-shaped angle member 110, It is formed to be fixed to the upper surface of the horizontal plate 112 of the L-shaped angle member 110 by a fixing bolt.

In addition, it is also fixed by the fixing bolt to the vertical support rod 140 is set so that the upper surface is in contact with the bottom surface of the horizontal plate 112 of the angled member (110).

In addition, a plurality of rear vertical angle parts 130 are set on the bottom surface of the horizontal plate 112 of the L-shaped angle member 110.

As such, the horizontal plate 112 of the L-shaped angle member 110 serves to transmit and distribute the traffic load of the vehicle transmitted from the finger plate 120 to the slab 200 of the bridge by the vertical support rod 140. It can be seen that.

However, the lower portion of the horizontal plate 112 of the L-shaped angle member 110 is formed with a plurality of vertical back portion 130 and the vertical support rod 140, the construction quality of the futa concrete (C) placed on the bottom In some cases, the impact is delivered in the process of fixing the finger plate 120 to the horizontal plate 112 of the angled member 110 to the horizontal plate 112, the lower portion of the horizontal plate 112 and the futa concrete ( The adhesive force of C) falls.

In the present invention, the compaction plate portion 150 is further installed on the bottom surface of the horizontal plate 112 of the L-shaped angle member 110, and the futa connector 160 is disposed on the horizontal body portion 122 of the finger plate 120. By installing a more it will be able to reduce the defects caused by the fallout of futa concrete.

Accordingly, the compacting plate part 150 is not hardened at the bottom of the horizontal plate 112 when the horizontal plate 112 of the L-shaped angle member 110 is fastened to the vertical support rod 140 by fixing bolts with an impact. It serves to strengthen the adhesion with futa concrete,

The futa connector 160 is a connection bolt extending downward through the corrugated protrusion A1 formed in the horizontal body portion 122 of the finger plate 120, the horizontal body portion 122 is corrugated to the futa concrete (C) It is for reinforcing the futa concrete C while making sure that the connection end surface A which is an end surface is fixedly installed.

In order to set the futa connector 160, the connecting end surface A is horizontally corrugated, and the futa connector 160 vertically penetrates the corrugated protrusion A1 while increasing the attachment area with the futa concrete. It also serves as a reinforcement to prevent the breakage of the futa concrete.

In addition, the bottom surface and the upper surface of the corrugated protrusion A1 formed on the connection end surface A are horizontally tapered (T) to increase the adhesive force with the futa concrete.

2A and 2B, the rear vertical angle part 130 is a vertical angle plate for fixing the A-shaped angle member 110 to be positioned on the futa concrete C, and the number of the A-shaped angle members 110. The plurality of plates are set to be spaced apart from each other by contacting the direct plate 111 and the horizontal plate 112.

The welding plate is formed in the horizontal plate 112 so that the welding rod is filled in the welding hole so as to be integrated with the angled member 110 by welding.

2A and 2B, the vertical support rod 140 serves to support the horizontal plate 112 of the L-shaped angle member 110 on the bottom surface of the block-out portion formed at the end of the slab 200 of the bridge. As a steel rod member, a bolt vertical hole is formed on the upper surface thereof so that the lower end of the fixing bolt is fastened to the inside of the bolt vertical hole via the bolt hole of the horizontal plate 112. The vertical support bar 140 is formed a plurality of spaced apart from the bottom of the horizontal plate (112).

2a and 2b, the compaction plate unit 150, as described above, when the finger plate 120 is tightening the fixing bolt to the vertical support rod 140 to the horizontal body portion 122 with a fixing bolt, As the impact is applied, the bottom surface of the horizontal plate 112 serves to prevent the hardened surface from falling off.

That is, the expansion joint device 100 except for the finger plate 120 is set in the block-out space formed at the end of the slab of the bridge, the futa concrete (C) is poured, the finger plate 120 using the fixing bolt ) Is fixedly installed on the horizontal plate 112 of the angled angle member 110, between the horizontal plate 112 and the futa concrete (C) of the angled angle member 110 by the impact generated during the fixing bolt tightening process This will solve the problem that the futa concrete is not filled tightly.

The compacting plate part 150 is particularly a rubber plate having a constant thickness in the longitudinal direction of the expansion joint device on the bottom surface of the horizontal plate 112 of the angle-shaped member 110 between the vertical support rod 140 and the futa connector 160. In addition, the bottom surface of the horizontal plate 112 and the futa concrete (C), which are formed of steel, are eliminated from each other, so that the bottom surface is protruded and curved to increase the flexible property and adhesion of the rubber plate.

As shown in FIGS. 2A and 2B, the futa connector 160 extends downwardly through the corrugated protrusion A1 formed in the horizontal end portion 122 of the finger plate 120 at the connection end surface A of the finger plate 120. In order to reliably fix the finger plate 120 to the futa concrete (C).

Accordingly, a bolt hole is formed in the corrugated protrusion A1 formed on the connection end surface A of the horizontal body part 122, and the head of the futa connector 160 is inserted into the bolt hole to be fixed by a nut. Done.

The vertical end of the futa connector 160 is bent horizontally to serve as a wedge in the futa concrete (C) to secure the integrity of the expansion joint device 100 and the futa concrete (C) and to reinforce futa concrete. In addition, the futa concrete (C) is set in advance, and when the finger plate 120 is installed, the futa connector and the horizontal body portion 122 of the finger plate 120 may be formed by fastening with each other by a nut.

[Construction method of expansion joint device 100 capable of reinforcing futa concrete (C) of the present invention]

Figure 3a and Figure 3b shows a flow chart of the construction method of the expansion joint can be reinforced futa concrete of the present invention.

The stretchable joint apparatus 100 capable of reinforcing the futa concrete (C) sets the expansion joint apparatus 100 except the finger plate 120 to the blockout portion B formed by cutting the end surface of the slab 200 of the bridge. Then, the futa concrete (C) is poured, and before the futa concrete hardening proceeds in the order of fixing to install the finger plate 120 on the upper surface of the L-shaped angle member 110 using a fixing bolt.

First, as shown in FIG. 3A, a blockout part B is formed by blocking out a space for installing the expansion joint device 100 at an end portion of the slab 200 of a bridge.

The block out portion B may be formed in a rectangular cross-sectional shape formed at a predetermined depth from the upper surface of the end portion of the slab 200 of the bridge. It can be seen that these block out parts B are formed at both ends.

Accordingly, the expansion joint device 100 except for the finger plate 120 of the present invention is set on the bottom of the block-out part B.

That is, the rear vertical angle portion 130 and the vertical support rod 140 are integrally formed on both A-shaped angle members 110, and are compacted on the bottom surface of the horizontal plate 112 of both A-shaped angle members 110. The expansion joint device 100 in which the finger plate 120 on which the plate part 150 is formed is excluded is installed in the blockout part B. FIG. At this time, the vertical support bar 140 serves as a supporting member.

The futa concrete (C) is poured so that the upper surface of the expansion joint device is exposed while the head of the futa connector 160 is also exposed.

Next, as shown in FIG. 3b, the head of the futa connector 160 is connected to the end of the finger plate 120 while the finger plates 120 are fixed to the upper surfaces of the two angled members 110 using fixing bolts. It is to be inserted into the bolt hole of (A) and tightened with a nut.

It can be seen that the finger plate 120 is pre-installed with a connecting member 160.

At this time, when the finger plate 120 is fixed to the upper surface of the both angled member 110, the bottom surface of the horizontal plate 112 of the upper surface of the Futa concrete (C) and both angled angle member 110 by the impact of the tightening process. If the deformation of the futa concrete (C) occurs due to the lifting or drying shrinkage and creep, the compaction plate 150 fills the excited space while the voids caused by the deformation are formed on the bottom surface of the two angled members 110. The compacting plate part 150, which is a flexible material, does not directly affect the absorption.

In addition, the futa connector 160 is to ensure the durability by the load action by allowing the finger plate 120 to be integrated into the futa concrete (C) to the connecting portion of the slab 200 and the expansion joint device 100 of the bridge. Futa concrete (C) reinforcement is possible.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: expansion joint device that can reinforce Futa concrete
110: both angled angle member 111: vertical plate
112: horizontal plate 113: U-shaped expansion joint material
120: finger plate 121: horizontal finger rejection
122: horizontal body portion 130: rear vertical angle portion
140: vertical support bar 150: compaction plate portion
160: futa connector 200: the slab of the bridge
A: Connecting end surface A1: Waveform protrusion
B: Block out part C: Futa concrete T: Tapering

Claims (7)

In the expansion joint device capable of reinforcing the futa concrete to absorb the expansion and contraction of the slab 200 of the concrete while overlapping the finger plate 120 fixed to the upper surface of the angled member (110),
Including a compaction plate part 150 installed to extend in the longitudinal direction on the bottom surface of the angled member 110 in which the finger plate 120 is fixedly installed.
In the process of fixing the finger plate 120 to the horizontal plate 112 of the L-shaped angle member 110 by fixing bolts, the futa concrete (C) and the compaction plate unit 150 below the horizontal plate 112 ) Directly contact each other,
The finger plate 120 is overlapped with each other horizontal finger portion 121 to absorb the stretch; And a horizontal plate formed integrally with the horizontal finger portion 121, and serves to fix the horizontal finger portion 121 to the upper surface of the horizontal plate 112 of the angled member 110. And a horizontal body portion 122 formed to be fixed to the upper surface of the horizontal plate 112 of the angle member 110. The connecting end surface A of the horizontal body portion 122 is a wave shaped end surface as a wave shaped protrusion ( A1) is formed and is fixed to the connecting end surface (A) of the horizontal body portion 122 to the futa concrete (C) as a connecting bolt extending downward through the corrugated protrusion (A1) of the finger plate 120 The expansion joint device capable of reinforcing the futa concrete formed with a futa connector 160 to reinforce the futa concrete (C). The method of claim 1,
The compaction plate 150 is
It is formed in a band shape and the portion directly contacting the futa concrete (C) is formed so as to be bent downwards to expand the expansion joint capable of reinforcing the futa concrete to be integrally formed on the horizontal plate 112 of the L-shaped angle member (110). The method of claim 2,
The compaction plate unit 150,
Flexible property of the rubber plate so that the bottom of the horizontal plate 112 and the futa concrete (C) do not fall off from each other by forming the rubber plate on the bottom of the horizontal plate 112 of the angled member member 110 in the longitudinal direction. Futcon reinforcement expansion joints that form the bottom to bend downward for increased adhesion. delete The method of claim 1,
The bottom and top surface of the corrugated protrusion (A1) formed on the connection end surface (A) is horizontally tapered (T) is a flexible joint capable of reinforcing the futa concrete reinforcement to increase the adhesive force with the futa concrete. (a) The expansion joint device 100, in which the finger plate 120 having the compaction plate portion 150 formed on the bottom surface of the horizontal plate 112 of the two angled members 110, is removed from the slab 200 end of the bridge. Installing in the formed block out part (B); And
(b) in the process of fixing the finger plate 120 to the horizontal plate 112 of the L-shaped angle member 110 by fixing bolts, the futa concrete (C) and the compaction plate portion of the lower portion of the horizontal plate (112) Direct contact with 150,
The compaction plate part 150 is formed on the bottom surface of the horizontal plate 112 of the L-shaped angle member 110 by a rubber plate in the longitudinal direction of the expansion joint device, and thus the bottom surface of the steel plate 112 and the futa concrete (C) are separated from each other. The bottom of the rubber plate is formed to be bent downwards to increase the flexibility and adhesion of the rubber plate.
In the finger plate 120 of the step (a), the connection end surface A of the horizontal body portion 122 which is integrally formed on the horizontal finger portion 121 is a wave shaped end surface, and a wave shaped protrusion A1 is formed. Futta concrete (C) while fixing the connection end surface (A) of the horizontal body portion 122 to the futa concrete (C) as a connection bolt extending downward through the corrugated protrusion (A1) of the finger plate 120 Construction method of the expansion joint device capable of reinforcing futa concrete to form a futa connector 160 to reinforce). delete

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