KR20230144936A - Expansion joint for connecting slabs using stud anchor and tooth anchor hybrid type and Bridge bearing apparatus using anchor for enhancing shear force and construction method thereof - Google Patents

Abstract

The present invention relates to an expansion joint device using a toothed anchor and a round bar anchor composite intersection anchor method, a bridge device using a toothed anchor for shear force enhancement, and a construction method thereof. More specifically, manufacturing an expansion joint installed on a pair of upper bridges connected to each other with a gap; Installing reinforcing bars in the reinforcing bar receiving portion of the reverse tooth anchor and installing auxiliary reinforcing bars; Installing the expansion joint device in the grouting receiving portion by connecting an embedded anchor and auxiliary rebar embedded in a pair of upper bridges connected to each other with a gap; and pouring concrete into the grouting receiving portion and curing it, wherein the expansion joint device includes: a pair of supports respectively embedded in each of the upper bridges with the gap therebetween; A pair of upper plate members disposed on the upper side of each support portion so as to be substantially parallel to the upper bridge and coupled to each other on the inside; A grouting receiving portion into which the support portion is embedded; a plurality of horizontal round bar anchors protruding outward at specific intervals along the longitudinal direction on both sides of the support portion; A plurality of vertical round bar anchors protruding downward at specific intervals along the longitudinal direction at the bottom of the support portion; A plurality of reverse sawtooth anchors are installed between the plurality of horizontal round bar anchors, projecting outward at predetermined intervals along the longitudinal direction at both ends of the support portion, and having an opening open at the bottom and a reinforcing bar receiving portion for receiving reinforcing bars. ; and a toothed anchor for shear force enhancement having a plurality of coupling grooves that are shaped and in contact with the plurality of vertical round bar anchors to connect between the vertical round bar anchors, wherein the toothed anchor for shear force enhancement has an inner surface in the form of a flat plate. The plurality of coupling grooves are formed and are in contact with and coupled to the plurality of vertical round bar anchors through each of the coupling grooves, and the toothed anchor for enhancing shear force having a plurality of coupling grooves and the plurality of vertical round bar anchors are integrated to form a vertical bar anchor. This relates to a construction method for an expansion joint device using a sawtooth anchor and a round bar anchor complex intersection anchor method, which is characterized by preventing damage to the round bar anchor.

Description

Expansion joint for connecting slabs using stud anchor and tooth anchor hybrid type and Bridge bearing apparatus using anchor for enhancing shear force and construction method there}

The present invention relates to an expansion joint device using a toothed anchor and a round bar anchor composite intersection anchor method, a bridge device using a toothed anchor for shear force enhancement, and a construction method thereof.

In general, bridge structures expand or contract depending on temperature changes and load. Accordingly, bridge structures constructed over a certain length have expansion joints installed at certain intervals on the bridge deck in response to changes in expansion or contraction.

This expansion joint device includes a pair of finger plates facing each other with a gap of a certain size or more, a supporter supporting the finger plates, and a drainage system that covers rainwater and foreign substances that fall between the gaps between the pair of finger plates. It is prepared in the form of sheets, etc.

In addition, the expansion joint device is arranged in parallel at a predetermined interval between a pair of interconnected bridge decks. In order to fix the expansion joint device to the bridge deck, one or more expansion joint device anchors are installed in the expansion joint device. It is provided by extending in the longitudinal direction of the bridge.

The anchor for the expansion joint is connected to the side of the expansion joint, and the expansion joint is fixed to the bridge by seating reinforcing bars on the anchor for the expansion joint in the width direction of the bridge and then pouring cement.

Figures 1 and 2 show a perspective view and a cross-sectional view of a conventional expansion joint device 1 to which a plurality of horizontal round bar anchors are applied. However, the conventional anchor for expansion joint is provided as a horizontal round bar anchor as shown in Figures 1 and 2, so when the reinforcing bar is placed on the anchor for expansion joint, the contact area between the reinforcing bar and the anchor is small, so the reinforcing bar is kept in a constant position. There was a problem that was difficult to fix. In other words, because the cement was not applied evenly, the phenomenon of cement cracking or sinking of the installed portion of the cement occurred after cement construction. In other words, when welding a simple arrangement of stud round bar anchors and reinforcing bars, the reinforcing bars are tack-welded, so there is a problem in that cracks in the concrete occur due to problems such as separation of the reinforcing bars, resulting in product damage.

Figures 3 and 4 show a perspective view and a cross-sectional view of the expansion joint device 2 to which a conventional sawtooth anchor is applied. As shown in Figures 3 and 4, in order to solve the problems of round bar anchors, an anchor for an expansion joint that prevents the movement and separation of rebar was developed. Since it is a simple arrangement of toothed anchors, it is easy to place reinforcing bars, and tack welding has the effect of preventing the reinforcement from coming off. However, when the vehicle moves, the toothed anchors may tear due to impact, which may cause subsequent concrete cracks. There is a risk that product damage may occur.

Republic of Korea Patent No. 10-0818354 Republic of Korea Patent No. 10-1851002 Republic of Korea Patent No. 10-1116876

Therefore, the present invention was developed to solve the above-described conventional problems. According to an embodiment of the present invention, the tooth-shaped anchor and the stud anchor are manufactured in a composite intersection, so that the reinforcement is easy to place and the effect of preventing the separation of the reinforcement is also achieved by tack welding. At the same time, the round bar anchor that intersects with the toothed anchor holds the reinforcing bar, making it strong against shocks generated when the vehicle is moving. It is a composite structural anchor method that prevents expansion joints and bridge damage, so there are no defects and no product damage, thereby protecting the bridge. The purpose is to provide an expansion joint device and its construction method that can extend its lifespan and are environmentally friendly using the serrated anchor, round bar anchor, and composite cross anchor method.

According to an embodiment of the present invention, the sawtooth anchor and the stud anchor are manufactured as a composite intersection to increase the precision of reinforcing bar arrangement through the toothed anchor, and at the same time, the round bar anchor prevents the reinforcement from lifting when the vibrator is operated during installation and prevents damage to the concrete. The purpose is to provide an expansion joint device and a construction method using a composite intersection anchor method of a sawtooth anchor and a round bar anchor, which has excellent damage-prevention constructability and product durability.

According to an embodiment of the present invention, a sawtooth anchor and a stud anchor are integrated in a complex crossing method, and a toothed anchor for enhancing shear force with a plurality of grooves between the vertical round bar anchors is integrated to prevent damage to the vertical round bar anchor and improve performance. The purpose is to provide an expansion joint device and a construction method using a serrated anchor, a round bar anchor, and a composite intersection anchor method that can maximize the

And according to an embodiment of the present invention, the shear force of the seismic isolator, seismic device, elastic support, POT, LRB, spherical, shear key, damper, bracket foundation, soundproof wall foundation, PC foundation for column, and building column foundation embedded anchor is increased. The purpose is to provide a manufacturing method and construction method for shear tooth anchors.

In addition, according to an embodiment of the present invention, the vertical round bar anchor is horizontally reinforced with a horizontal force reinforcing toothed anchor, so that the force resisted by one vertical anchor is horizontally fastened with one or more grooved toothed anchors (one or more grooved anchors) The purpose is to reinforce horizontal force, prevent product damage due to earthquakes and temperature changes, prevent damage to substructures, and provide a construction and installation method using a manufacturing method that intersects vertical and horizontal anchors.

According to an embodiment of the present invention, the shear force is increased by a construction method using a shear force enhancing anchor (with one or more grooves), a toothed anchor for enhancing the shear force of the lower anchor part, and the vertical lower anchor is used as a serrated anchor with one or more grooves. The purpose is to provide an abutment device using a sawtooth anchor for shear force enhancement, which can prevent damage to products and structures by fixing and installing structural anchors in cross directions to increase horizontal and vertical forces, and a construction method thereof.

Meanwhile, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly apparent to those skilled in the art from the description below. It will be understandable.

The first object of the present invention is an expansion joint device installed on a pair of upper bridges connected to each other with a gap in between, comprising: a pair of supports respectively embedded in each of the upper bridges with the gap in between; A pair of upper plate members disposed on the upper side of each support portion so as to be substantially parallel to the upper bridge and coupled to each other on the inside; A grouting receiving portion into which the support portion is embedded; a plurality of horizontal round bar anchors protruding outward at specific intervals along the longitudinal direction on both sides of the support portion; and a plurality of inverted sawtooth anchors installed between the plurality of horizontal round bar anchors, each having an opening open to the lower part and a rebar receiving part for receiving rebar. This can be achieved as a joint device.

A second object of the present invention is an expansion joint device installed on a pair of upper bridges connected to each other with a gap in between, comprising: a pair of supports respectively embedded in each of the upper bridges with the gap in between; A pair of upper plate members disposed on the upper side of each support portion so as to be substantially parallel to the upper bridge and coupled to each other on the inside; A grouting receiving portion into which the support portion is embedded; A plurality of vertical round bar anchors protruding downward at specific intervals along the longitudinal direction at the bottom of the support portion; and a plurality of reverse-toothed anchors that protrude outward at predetermined intervals along the longitudinal direction at both ends of the support portion and have an opening open to the bottom and a reinforcing bar receiving portion in which the reinforcing bar is accommodated. A serrated anchor comprising a. This can be achieved with an expansion joint device using the round bar anchor composite intersection anchor method.

And, to connect the vertical round bar anchors, it may further include a toothed anchor for reinforcing shear force formed with a coupling groove that is shape-fitted and in contact with the vertical round bar anchors.

The third object of the present invention is to manufacture an expansion joint device according to the first or second object mentioned above; Installing reinforcing bars in the reinforcing bar receiving portion of the reverse tooth anchor and installing auxiliary reinforcing bars; Installing the expansion joint device in the grouting receiving portion by connecting an embedded anchor and auxiliary rebar embedded in a pair of upper bridges connected to each other with a gap; and the step of pouring concrete into the grouting receiving portion and curing it. This can be achieved as a construction method of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method is applied, comprising:

The fourth object of the present invention is a bridge device installed at the top of a pillar to construct a foundation, including a support portion on which the upper bridge is seated; A support provided at the bottom of the base; A plurality of round bar-type vertical anchors coupled to the lower side of the support and embedded when pouring the foundation; and a toothed anchor for reinforcing shear force, which is formed with a coupling groove that is shape-fitted and in contact with the round bar-type vertical anchor, so as to connect between the round-bar-type vertical anchors. It can be.

According to the expansion joint device and its construction method using the anchor method for a composite intersection of sawtooth anchors and round bar anchors according to an embodiment of the present invention, the toothed anchors and stud anchors are manufactured as a composite intersection, so that reinforcement is easy to place and the reinforcement can also be tacked. It has the effect of preventing breakaway, and at the same time, the round bar anchor that intersects with the toothed anchor holds the reinforcing bar, making it strong against shocks that occur when the vehicle is moving. It is a composite structural anchor method that prevents expansion joints and bridge damage, so there are no defects and product damage. As there are no bridges, the lifespan of the bridge can be extended and it has the advantage of being environmentally friendly.

According to the expansion joint device and its construction method using the anchor method for the composite intersection of the sawtooth anchor and the round bar anchor according to an embodiment of the present invention, the precision of reinforcing reinforcement is improved by manufacturing the toothed anchor and the stud anchor as a composite intersection and using the toothed anchor. At the same time, the round bar anchor prevents the reinforcement from lifting when the vibrator operates during installation, thereby preventing damage to the concrete and providing excellent constructability and product durability.

According to the expansion joint device and its construction method to which the anchor method for composite crossing of sawtooth anchors and round bar anchors according to an embodiment of the present invention is applied, and the composite crossing method of toothed anchors and stud anchors, a plurality of vertical round bar anchors are provided. It has the effect of preventing damage to the vertical round bar anchor and maximizing its performance by integrating the shear force reinforcement tooth anchor with the groove.

And according to an embodiment of the present invention, the shear force of the seismic isolator, seismic device, elastic support, POT, LRB, spherical, shear key, damper, bracket foundation, soundproof wall foundation, PC foundation for column, and building column foundation embedded anchor is increased. We can provide manufacturing methods and construction methods for shear tooth anchors.

In addition, according to an embodiment of the present invention, the vertical round bar anchor is horizontally reinforced with a horizontal force reinforcing toothed anchor, so that the force resisted by one vertical anchor is horizontally fastened with one or more grooved toothed anchors (one or more grooved anchors) By reinforcing horizontal force, it is possible to prevent product damage due to earthquakes and temperature changes, prevent damage to substructures, and provide a construction and installation method using a manufacturing method that intersects vertical and horizontal anchors.

And according to the abutment device using a toothed anchor for shear force enhancement according to an embodiment of the present invention, and its construction method, the shear force enhancement anchor is a construction method using a shear force enhancement anchor (having one or more grooves) and a toothed anchor for enhancing the shear force of the lower anchor portion. It has the effect of preventing damage to products and structures by increasing the horizontal and vertical forces by fixing and installing vertical lower anchors in the cross direction with tooth-shaped structural anchors with one or more grooves.

Meanwhile, the effects that can be obtained from the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below. You will be able to.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention along with the detailed description of the invention, so the present invention is limited only to the matters described in such drawings. It should not be interpreted as such.
Figures 1 and 2 are a perspective view and a cross-sectional view of a conventional expansion joint device using a plurality of horizontal round bar anchors;
Figures 3 and 4 are a perspective view and a cross-sectional view of an expansion joint device using a conventional toothed anchor.
Figure 5 is a perspective view of an expansion joint device using a serrated anchor and a round bar anchor composite intersection anchor method according to the first embodiment of the present invention;
Figures 6 and 7 are cross-sectional views of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method are applied according to the first embodiment of the present invention;
Figures 8a and 8b are a perspective view and an exploded perspective view of an expansion joint to which a serrated anchor and a round bar anchor composite intersection anchor method are applied according to a second embodiment of the present invention;
9A to 9C are cross-sectional views of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method are applied according to a second embodiment of the present invention;
Figure 10 is an exploded perspective view of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method according to the third embodiment of the present invention is applied;
Figure 11a is an exploded perspective view of a steering device applying a toothed anchor for enhancing shear force according to the first embodiment of the present invention;
Figure 11b is an exploded perspective view of the steering device to which the L-shaped shear force reinforcement tooth anchor is applied in the first embodiment of the present invention;
Figure 11c is a cross-sectional view of the installation of a brace device applying a toothed anchor for enhancing shear force according to the first embodiment of the present invention;
Figure 12 is an exploded perspective view of a steering device applying a toothed anchor for enhancing shear force according to the second embodiment of the present invention;
Figure 13a is an exploded perspective view of a bridge seat device applying a toothed anchor for enhancing shear force according to the third embodiment of the present invention;
Figure 13b is a cross-sectional view of a brace device applying a toothed anchor for enhancing shear force according to the third embodiment of the present invention;
Figure 13c is a cross-sectional view of a toothed anchor for shear force increaser coupled to a round bar vertical anchor according to the third embodiment of the present invention;
Figure 13d shows an installed cross-sectional view of a brace device applying a toothed anchor for enhancing shear force according to the third embodiment of the present invention.

The above objects, other objects, features and advantages of the present invention will be easily understood through the following preferred embodiments related to the attached drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content will be thorough and complete and so that the spirit of the present invention can be sufficiently conveyed to those skilled in the art.

In this specification, when an element is referred to as being on another element, it means that it may be formed directly on the other element or that a third element may be interposed between them. Also, in the drawings, the thickness of components is exaggerated for effective explanation of technical content.

Embodiments described herein will be explained with reference to cross-sectional views and/or plan views, which are ideal illustrations of the present invention. In the drawings, the thicknesses of films and regions are exaggerated for effective explanation of technical content. Therefore, the shape of the illustration may be changed depending on manufacturing technology and/or tolerance. Accordingly, embodiments of the present invention are not limited to the specific form shown, but also include changes in form produced according to the manufacturing process. For example, an area shown as a right angle may be rounded or have a shape with a predetermined curvature. Accordingly, the regions illustrated in the drawings have properties, and the shapes of the regions illustrated in the drawings are intended to illustrate a specific shape of the region of the device and are not intended to limit the scope of the invention. In various embodiments of the present specification, terms such as first and second are used to describe various components, but these components should not be limited by these terms. These terms are merely used to distinguish one component from another. Embodiments described and illustrated herein also include complementary embodiments thereof.

The terminology used herein is for describing embodiments and is not intended to limit the invention. As used herein, singular forms also include plural forms, unless specifically stated otherwise in the context. As used in the specification, 'comprises' and/or 'comprising' does not exclude the presence or addition of one or more other elements.

In describing specific embodiments below, various specific details have been written to explain the invention in more detail and to aid understanding. However, a reader with sufficient knowledge in the field to understand the present invention can recognize that it can be used without these various specific details. In some cases, it is mentioned in advance that when describing the invention, parts that are commonly known but are not significantly related to the invention are not described in order to prevent confusion without any reason in explaining the invention.

Hereinafter, an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method according to an embodiment of the present invention is applied will be described.

First, Figure 5 shows a perspective view of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method is applied according to the first embodiment of the present invention. And Figures 6 and 7 show a cross-sectional view of an expansion joint device to which the serrated anchor and round bar anchor composite intersection anchor method is applied according to the first embodiment of the present invention.

The expansion joint device 100 of the present invention is installed on a pair of upper bridges 9 connected to each other with a gap, and like a normal expansion joint device, each within each upper bridge 9 with a gap in between. It is comprised of a pair of support parts 20 that are embedded, and a pair of top members 10 that are disposed on the upper side of each support part 20 so as to be almost parallel to the upper bridge 9 and are coupled to each other on the inside. And the support part 20 has a grouting receiving part into which it is embedded.

In the first embodiment of the present invention, the support portion 20 includes a plurality of horizontal round bar anchors 30 that protrude outward at specific intervals along the longitudinal direction on both sides of the support portion 20. At the same time, it is installed between the plurality of horizontal round bar anchors 30 and includes a plurality of reverse tooth anchors 40 having an opening 43 open to the lower part and a rebar receiving part 41 in which the rebar is accommodated.

This reverse tooth anchor 40 has a body portion 42 of a steel plate, may have a plurality of rebar receiving portions 41, an opening 43 open to the bottom, a receiving groove 44, It may include a vertical movement restriction unit (45) and a left and right movement restriction unit (46).

Figures 8a and 8b show a perspective view and an exploded perspective view of an expansion joint to which a serrated anchor and a round bar anchor composite intersection anchor method are applied according to a second embodiment of the present invention. In addition, Figures 9a to 9c show a cross-sectional view of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method is applied according to a second embodiment of the present invention.

As in the first embodiment, the expansion joint device 100 according to the second embodiment of the present invention also includes a pair of support portions 20 each embedded in each of the upper bridges 9 with a gap in between, and an upper portion. It is composed of a pair of top members 10 disposed on the upper side of each support part 20 so as to be almost parallel to the bridge 9 and coupled to each other on the inside, and a grouting receiving part into which the support part 20 is embedded.

The form of the expansion joint device 100 according to the second embodiment may further include a foreign matter blocking member 3 and a spacing member 4.

And at the bottom of the support portion 20, it includes a plurality of vertical round bar anchors 50 that protrude toward the bottom at specific intervals along the longitudinal direction. At the same time, in the second embodiment of the present invention, both ends of the support part 20 protrude outward at predetermined intervals along the longitudinal direction, and have an opening 43 open to the lower part and a rebar receiving part 41 for receiving rebar. It is configured to include a plurality of reverse tooth anchors (40). Additionally, as shown in FIGS. 9B and 9C, the second embodiment of the present invention may further include a horizontal round bar anchor 30.

In the first and second embodiments of the present invention, the toothed anchor (40), the horizontal round bar anchor (30), which is a stud anchor, and the vertical round bar anchor (50) are manufactured in a complex intersection to facilitate reinforcement reinforcement and tack welding. It also has the effect of preventing the rebar from coming off, and at the same time, the round bar anchors (30, 50) that intersect with the toothed anchor (30) hold the rebar, so it is strong against shocks that occur when the vehicle moves, and can prevent expansion joints and bridge damage. It's there.

In other words, the toothed anchor (40) and the stud anchor (30, 50) are manufactured as a composite to increase the precision of reinforcement arrangement through the toothed anchor (40), and at the same time, the round bar anchors (30, 50) are used to increase the accuracy of the vibrator during installation. By preventing the reinforcement from lifting, it is possible to prevent breakage of concrete, have excellent constructability, and have excellent product durability.

Figure 10 shows an exploded perspective view of an expansion joint device to which a serrated anchor and a round bar anchor composite intersection anchor method are applied according to a third embodiment of the present invention.

The third embodiment of the present invention includes the configuration described in the above-mentioned second embodiment and has a structure that further includes a toothed anchor 240 for enhancing shear force.

The sawtooth anchor 240 for enhancing shear force is formed with one or more coupling grooves 242 that are shape-fitted and in contact with the vertical round bar anchors 50 to connect the vertical round bar anchors 50.

Therefore, it is possible to prevent damage to the general vertical round bar anchor (50) and maximize performance by integrating the shear force reinforcement tooth anchor (240) with one or more coupling grooves (242) and the vertical round bar anchor (50). .

Hereinafter, the configuration and function of the steering device 200 using a toothed anchor for shear force enhancement will be described. The bridge device described in the specification of the present invention is a general concept of the foundation installed between the pillar member and the upper bridge, and includes seismic isolator, seismic device, elastic support, POT, LRB, spherical, shear key, damper, bracket foundation, It is characterized by applying shear sawtooth anchors to enhance the shear force of soundproof wall foundations, PC foundations for columns, and embedded anchors in building column foundations.

Figure 11a shows an exploded perspective view of a suspension device using a toothed anchor for shear force enhancement according to the first embodiment of the present invention. Figure 11b is an exploded perspective view of a suspension device using a toothed anchor for enhancing shear force according to the first embodiment of the present invention, and Figure 11c is an exploded perspective view of a suspension device applying a toothed anchor for enhancing shear force according to the first embodiment of the present invention. It shows a cross-sectional view.

And Figure 12 shows an exploded perspective view of a steering device using a toothed anchor for shear force enhancement according to the second embodiment of the present invention.

Additionally, Figure 13a shows an exploded perspective view of a suspension device using a toothed anchor for shear force enhancement according to a third embodiment of the present invention. In addition, Figure 13b is a cross-sectional view of a seat device using a toothed anchor for shearing force enhancement according to the third embodiment of the present invention, and Figure 13c is a cross-sectional view of a toothed anchor for shearing force enhancement coupled to a round bar vertical anchor according to the third embodiment of the present invention. A cross-sectional view, Figure 13d, shows an installed cross-sectional view of a brace device applying a toothed anchor for shear force enhancement according to the third embodiment of the present invention.

The first to third embodiments of the present invention are all the same in that they include a support portion 210, a support 220, a round bar vertical anchor 230, and a toothed anchor 240 for enhancing shear force, and the support portion ( Only the shape of the support 210), the support 220, and the round bar vertical anchor 230 are different structures.

The suspension device 200 using the toothed anchor for enhancing shear force according to the first to third embodiments of the present invention includes a support portion 210 on which the upper bridge 9 is seated at the top, and a lower end of this support portion 210. It includes a support 220 provided in the support 220 and a plurality of round bar-type vertical anchors 230 that are coupled to the lower side of the support 220 through a fastening member 8 and are embedded when pouring the foundation 120. .

And in the first to third embodiments of the present invention, a toothed anchor for enhancing shear force is formed with a coupling groove 242 that is shape-fitted and in contact with the round bar vertical anchor (@30) to connect the round bar vertical anchors 230. It is composed including (240).

As in the first to third embodiments of the present invention, the toothed anchor 240 for enhancing shear force can be manufactured in combination with the round bar vertical anchor 50, and the body portion of the toothed anchor 240 for enhancing shear force ( 241) may be configured in a straight plate shape or an L-shaped plate shape as shown in FIG. 11B.

The steering device 200 using the toothed anchor for shear force enhancement according to the first to third embodiments of the present invention avoids the position of the embedded anchor 7 and the reinforcing bar 5 embedded in the upper part of the pillar member 110. After installation, the foundation 120 is created through concrete pouring, and the round bar-type vertical anchor 230 and the toothed anchor 240 for enhancing shear force are embedded together with the embedded anchor 7 and the reinforcing bar 5.

Therefore, the shear force is increased by a construction method using a toothed anchor (with one or more coupling grooves) to enhance the shear force of the lower anchor part, and the round bar vertical anchor is fixed and installed in the cross direction with a toothed anchor to enhance the shear force with one or more coupling grooves. This increases horizontal and vertical forces and prevents damage to products and structures.

In addition, the apparatus and method described above are not limited to the configuration and method of the above-described embodiments, but all or part of each embodiment can be selectively combined so that various modifications can be made. It may be composed.

1: Expansion joint device using conventional multiple horizontal round bar anchors
2: Expansion joint device using conventional toothed anchors
3: Foreign matter blocking member
4: Separation member
5:Rebar
6: Auxiliary rebar
7: Buried anchor
8: Fastening member
9:Upper bridge
10: Top plate member
20: support part
21:Connection
30: Horizontal round bar anchor
40: Reverse sawtooth anchor
41: Rebar receiving part
42:Body part
43: opening
44:Shanghai East Limited
45: Left and right movement limiter
46: Acceptance home
47: Connection end
50: Vertical round bar anchor
100: Expansion joint device using a serrated anchor and a round bar anchor combined anchor method for crossing
110: Column member
120:Basic part
200: Steering wheel equipped with a toothed anchor to enhance shear force
210: Support part
220: support
230: Round bar vertical anchor
240: Toothed anchor for shear force enhancement
241:Body
242: Combination groove

Claims (1)

Manufacturing an expansion joint installed on a pair of upper bridges connected to each other with a gap;
Installing reinforcing bars in the reinforcing bar receiving portion of the reverse tooth anchor and installing auxiliary reinforcing bars;
Installing the expansion joint device in the grouting receiving portion by connecting an embedded anchor and auxiliary rebar embedded in a pair of upper bridges connected to each other with a gap; and
Comprising: pouring concrete into the grouting receiving portion and curing it,
The expansion joint device is,
a pair of support parts respectively embedded in each of the upper bridges with the gap therebetween; A pair of upper plate members disposed on the upper side of each support portion so as to be substantially parallel to the upper bridge and coupled to each other on the inside; A grouting receiving portion into which the support portion is embedded; a plurality of horizontal round bar anchors protruding outward at specific intervals along the longitudinal direction on both sides of the support portion; A plurality of vertical round bar anchors protruding downward at specific intervals along the longitudinal direction at the bottom of the support portion; A plurality of reverse sawtooth anchors are installed between the plurality of horizontal round bar anchors, projecting outward at predetermined intervals along the longitudinal direction at both ends of the support portion, and having an opening open at the bottom and a reinforcing bar receiving portion for receiving reinforcing bars. ; And a toothed anchor for reinforcing shear force formed with a plurality of coupling grooves that are shape-fitted and in contact with the plurality of vertical round bar anchors to connect between the vertical round bar anchors,
The sawtooth anchor for shear force enhancement has a flat plate shape with a plurality of coupling grooves formed on its inner surface, and is contacted and coupled to a plurality of vertical round bar anchors through each of the coupling grooves,
An expansion joint device using a sawtooth anchor and round bar anchor complex intersection anchor method, characterized in that a sawtooth anchor for shear force reinforcement with a plurality of coupling grooves and a plurality of vertical round bar anchors are integrated to prevent damage to the vertical round bar anchor. Construction method.