KR101221836B1 - Shearing connector - Google Patents

Abstract

As described above, the shear connector of the present invention, the shear connector of the present invention supports and reinforces both the shear load and the tensile and compressive load acting between the structured cylindrical structural member and the cast-in-place concrete member forming the shaft structure It is possible to make it possible to increase the effect of synthesizing the elevated tubular structural member and the cast-in-place concrete member.

Description

Shear connector {SHEARING CONNECTOR}

The present invention relates to a shear connector, and more particularly, to a shear connector for connecting between the structural member of the eluted cylindrical shape and the cast-in-place concrete member to fill the interior.

As is well known, construction is performed using structural members (eg, steel members or precast concrete members, etc.) that have been raised at the factory in order to reduce construction speed and construction costs for construction or civil structures such as buildings or bridges. Precast construction methods are gradually being applied.

In particular, in the case of constructing a shaft structure such as a column or a bridge pier in the field of construction and civil engineering by using the above-described precast construction method, a cast-in-place concrete member that is cast on-site after installing a structured cylindrical structural member Fill the interior with to complete the shaft structure.

At this time, the structured cylindrical members and the cast-in-place concrete members are connected to each other between the structural members and the cast-in-place concrete members. Shear connectors are used to enhance the effect.

However, in the case of the conventional shear connector used in the construction of the shaft structure, it is necessary to support and reinforce the tensile and compressive loads that act in addition to the shear load acting between the raised cylindrical structural members and the cast-in-place concrete members forming the shaft structure. There is a disadvantage that can not reduce their synthetic effect.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to support and support both tensile and compressive loads as well as shear loads acting between eluted tubular structural members and cast-in-place concrete members that are cast in place to fill the interior thereof. It can reinforce and replace the restraint effect of band reinforcing bar and spiral reinforcing bar when the structural member of the cylindrical shape is made of concrete member, and it can take the role of ring reinforcing material to prevent local buckling in case of steel member. It is to provide a shear connector that can be.

Shear connector of the present invention for achieving the above object, the shear connecting the structural member between the structural member and the cast-in-place concrete member that fills the interior of the structural cast and reinforces the shear force generated between them In the connecting member, the structural member is fixed to the structural member to form a ring shape; And a plurality of shear connecting portions extending radially along a circumferential direction along the circumferential direction of the reinforcing ring portion and connecting the structural member and the site-poured concrete member. An outer extension portion extending in an outer radial direction of the reinforcing ring portion to be fixed to the structural member on a circumference; And an inner extension part extending in an inner radial direction of the reinforcing ring part so as to be embedded and fixed in the site-casting concrete member on the circumference of the reinforcing ring part.

Here, the structural member may be formed of a cylindrical steel member made of steel.

The structural member may be a cylindrical precast concrete member in which the reinforcing ring portion and the outer extension portion of the shear connection portion are embedded in the interior, and the shear connection portion is embedded in the precast concrete member at the end portion of the outer extension portion. A first reinforcing bar groove for fixing the first reinforcing bar to be fixed may be formed.

The first reinforcing bar groove may include: a first guide groove part formed to guide the first reinforcing bar in the width direction at an end portion of the shear connection part outside the extension part; A first catching groove formed in communication in the longitudinal direction of the shear connecting portion from an end of the first guide groove; And a first locking jaw portion protruding from an edge portion at which the first guide groove portion and the first locking groove portion intersect to be caught and fixed to the first reinforcing bar fitted to the first locking groove portion.

The first reinforcing bar groove may include a second guide groove part gradually narrowing in a length direction at an end portion of the shear extension part along an outer extension side thereof to form a locking step; And a second locking groove portion extending in the longitudinal direction of the shear connection portion so as to communicate with the locking jaw portion of the second guide groove portion so that the first reinforcing bar is fitted and fixed through the first guide groove portion. have.

In addition, the shear connecting portion may be formed in the reinforcing hook hole so that the second reinforcing bar embedded in the site-casting concrete member is inserted through the inner extension side end portion.

In addition, the shear connecting portion may be formed with a second reinforcing bar groove so that the second reinforcing bar embedded in the site-casting concrete member is fitted into the inner extension side end.

The second reinforcing bar groove may include a third guide groove part gradually narrowing along a length direction at an end portion of the inner side of the shear connection part to form a locking step portion; And a second locking groove portion extending in the longitudinal direction of the shear connection portion so as to communicate with the locking jaw portion of the third guide groove portion, to which the second reinforcing bars are inserted and fixed.

Another shear connecting member of the present invention for achieving the above object is connected to the cast-in-place cylindrical structural member and the cast-in-place concrete member that fills the interior of the structural member and reinforces the shear force generated therebetween A shear connector, comprising: a ring-shaped outer reinforcing ring portion fixed to the structural member; A ring-shaped inner reinforcing ring portion embedded in the site-pouring concrete member inside the outer reinforcing ring portion; And a plurality of shear connection parts connected at both ends to the outer reinforcing ring part and the inner reinforcing ring part at a predetermined distance along the circumferential direction of the outer reinforcing ring part and the inner reinforcing ring part.

Here, the structural member may be formed of a cylindrical steel member made of steel.

On the other hand, the structural member is a precast concrete member of a cylindrical shape in which the outer reinforcing ring portion and the outer portion of the shear connecting portion adjacent to the outer reinforcing ring portion is embedded therein, the shear connecting portion at the end portion of the outer reinforcing ring portion A first reinforcing bar groove for fixing to the first reinforcing bar embedded in the precast concrete member may be formed.

The first reinforcing bar groove may include a first guide groove formed to guide the first reinforcing bar to be fitted in the width direction of the shear connection part; A first locking groove formed to communicate in a length direction of the shear connecting portion from an end of the first guide groove toward the outer reinforcing ring; And a locking jaw portion protruding from the guide groove portion and a corner portion at which the locking groove portion intersects to hold and fix the first reinforcing bars fitted to the locking groove portion.

The first reinforcing bar groove may include: a second guide groove part gradually narrowing along a length direction of the shear connection part on an outer circumferential surface of the outer reinforcing ring part that meets the outer end of the shear connection part to form a locking step; And a second locking groove portion extending in the longitudinal direction of the shear connection portion so as to communicate with the locking jaw portion of the second guide groove portion, to which the first reinforcing bars are inserted and fixed.

In addition, the shear connection portion may be formed in the reinforcing hook hole is formed so that the second reinforcing bars embedded in the site-cast concrete member is fitted to the end of the inner reinforcing ring portion.

In addition, a second reinforcing bar groove may be formed such that the shear connection part penetrates and fixes the second reinforcing steel embedded in the site-pouring concrete member on the outer circumferential surface of the outer reinforcing ring part that meets the end portion of the inner reinforcing ring part.

The second reinforcing bar groove may include: a third guide groove part gradually narrowing in a length direction of the shear connection part on an outer circumferential surface of the inner reinforcing ring part that meets the inner end of the shear connection part to form a locking step; And a third locking groove formed to extend in the longitudinal direction of the shear connection part so as to communicate with the locking jaw portion of the third guide groove and to which the second reinforcing bars are inserted and fixed.

Another shear connector of the present invention for achieving the above object, between the structural member and the cast-in-place cast concrete member filling the inside of the structural member and the cast-in-place the shear force generated between them In the shear connector to reinforce, The shear connector is a ring-shaped reinforcement ring portion fixed to the structural member; A plurality of shear connection parts extending in an inner radial direction at a predetermined distance in the circumferential direction from the reinforcing ring part and connecting the structural member and the site-cast concrete member; And a reinforcing plate part extending in a direction intersecting with the shear connection part at the inner end of the site connection concrete member side of the shear connection part.

Here, the reinforcing plate portion may extend in both directions perpendicular to the shear connection portion, or may extend in both directions symmetrical with a predetermined inclination angle from the shear connection portion.

On the other hand, the structural member may be formed of a cylindrical steel member made of steel.

Here, the structural member is a cylindrical precast concrete member in which the outer ring portion adjacent to the reinforcing ring portion and the reinforcing ring portion is buried therein, and the shear connecting portion is the precast concrete at the end portion of the reinforcing ring portion. A first reinforcing bar groove for fixing to the first reinforcing bar embedded in the member may be formed.

The first reinforcing bar groove may include: a first guide groove part formed to insert the first reinforcing bar in the width direction of the shear connection part; A first catching groove formed in a length direction of the shear connecting portion from an end of the first guide groove toward the outer reinforcing ring; And a locking jaw portion protruding from the guide groove portion and a corner portion at which the locking groove portion intersects to hold and fix the first reinforcing bars fitted to the locking groove portion.

In addition, the shear connection portion may be formed with a second reinforcing bar groove so that the second reinforcing bar embedded in the site-pouring concrete member at the end of the site-pouring concrete member penetrates and is fitted.

The second reinforcing bar groove may include: a second guide groove part formed to guide the first reinforcing bar in the width direction at the inner end of the shear connection part; A second catching groove formed in a length direction of the shear connecting portion from an end of the first guide groove toward the outer reinforcing ring; And a second locking jaw portion protruding from the guide groove portion and a corner portion where the locking groove portion intersects to hold and fix the second reinforcing bars fitted to the locking groove portion.

Another shear connecting member of the present invention for achieving the above object is connected to the cast-in-place cylindrical structural member and the cast-in-place concrete member that fills the interior of the structural member and reinforces the shear force generated therebetween In the shear connector, the shear connector is a ring-shaped reinforcement ring portion fixed to the structural member; A plurality of inclined shear connections connected to each other with a predetermined inclination angle and a joint surface formed by the structural member and the site-pouring concrete member at a predetermined distance in the circumferential direction from the reinforcing ring portion; And a fixed plate part extending vertically along the inclined surface of the inclined connection plate at the reinforcing ring part side end of the inclined shear connection part to hold and hold the inclined shear connection part to the reinforcing ring part. .

Here, the inclined shear connecting portion is preferably formed to form an inclination angle of 35 ° to 55 ° with the joint surface formed by the structural member and the site-cast concrete member.

In addition, the reinforcing ring portion is made of a plate-shaped ring shape having a predetermined width, the fixing plate may be formed with a ring fixing groove for the inner circumferential surface side of the reinforcing ring portion to be fixed to the reinforcing ring portion side end.

In addition, the reinforcing ring portion is made of a cylindrical ring shape having a predetermined height, the fixing plate portion may be formed to have a triangular plate shape so that the rear end surface coupled to the inner circumferential surface of the reinforcing ring portion parallel to the bonding surface.

Another shear connector of the present invention for achieving the above object is connected between the cast-in cylindrical structural members and the cast-in-place concrete members to fill the interior of the structural member and the shear force generated between them A shear connector for reinforcing, wherein the shear connector comprises: an outer reinforcing ring portion having a cylindrical ring shape having a predetermined height fixed to the structural member; And a plurality of shear connecting portions extending in an inner radial direction at a predetermined distance in a circumferential direction from the outer reinforcing ring portion, and connecting the structural member and the site-pouring concrete member. A first fixing ring may be formed at an inner end portion embedded in concrete to pass through the second reinforcing bar embedded in the site-pouring concrete.

Here, the shear connection portion may further include an inner reinforcing ring portion having a ring shape to connect the first fixing rings at the inner end of the site-cast concrete member side.

In addition, the structural member may be formed of a cylindrical steel member made of steel.

Here, the structural member is a precast concrete member in which the outer reinforcing ring portion and an outer portion of the shear connecting portion adjacent to the outer reinforcing ring portion are embedded in the interior, and the shear connecting portion is an inner end portion connected to the outer reinforcing ring portion. The second reinforcing bar embedded in the precast concrete member may be configured to include a second fixing ring that is fitted in the fixed.

According to the shear connector of the present invention described above, the shear load acting between the eluted cylindrical structural members constituting the axial structure and the cast-in-place concrete members cast in-situ to fill the interior thereof, as well as the tension acting therebetween and Both compressive loads can be supported and reinforcement to increase the combined effect of the cylindrical structural members and the cast-in-place concrete members constituting the axial structure.

1 is a partial cutaway perspective view showing an application state of a shear connector according to a first embodiment of the present invention.
FIG. 2 is a side cross-sectional view taken along the line II-II of FIG. 1. FIG.
3 is a perspective view illustrating the shear connector of FIG. 1 separately;
4 and 5 are perspective views showing modifications to the shear connector of the first embodiment of the present invention.
6 is a partially cutaway perspective view illustrating an application state of a shear connector according to a second exemplary embodiment of the present invention.
7 is a side cross-sectional view taken along the line VII-VII of FIG. 6.
FIG. 8 is a perspective view illustrating the shear connector of FIG. 6 separately.
9 and 10 are perspective views showing modifications to the shear connector of the second embodiment of the present invention.
11 is a partially cutaway perspective view illustrating an application state of a shear connector according to a third exemplary embodiment of the present invention.
12 is a side cross-sectional view taken along the line II-II of FIG. 1.
FIG. 13 is a perspective view illustrating the shear connector of FIG. 11 separately.
14 is a perspective view showing a modification to the shear connector of the third embodiment of the present invention.
15 is a partially cutaway perspective view illustrating an application state of a shear connector according to a fourth exemplary embodiment of the present invention.
FIG. 16 is a side cross-sectional view taken along the line VI-VI of FIG. 1. FIG.
FIG. 17 is a perspective view illustrating the shear connector of FIG. 15 separately.
18 is a perspective view showing a modification to the shear connector of the fourth embodiment of the present invention.
19 is a partially cutaway perspective view illustrating an application state of a shear connector according to a fifth exemplary embodiment of the present invention.
20 is a side cross-sectional view taken along the line VII-VII of FIG. 1.
FIG. 21 is a perspective view illustrating the shear connector of FIG. 19. FIG.
22 is a perspective view showing a modification to the shear connector of the fifth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a partial cutaway perspective view showing an application state of a shear connector according to a first embodiment of the present invention, Figure 2 is a side cross-sectional view taken along the line II-II of Figure 1, Figure 3 is a shear of Figure 1 It is a perspective view which shows the connection material separated.

Referring to Figures 1 to 3, the shear connector 100 of the present embodiment is configured to include a reinforcing ring 110 and the shear connector 120.

The shear connector 100 connects the elevated tubular structural member 10 and the cast-in-place concrete member 20 that fills the interior of the structural member, and supports the shear load occurring therebetween. And reinforcement to increase the composite effect of the members (10, 20).

In the present embodiment, the structural member 10 is a cylindrical cylinder made by curing concrete in a cylindrical shape using a centrifugal casting method in advance so as to reduce construction speed and construction cost for shaft members used for pillars or bridge piers of buildings. It demonstrates that it is a precast concrete member.

However, the structural member 10 of the present invention is not necessarily limited to the cylindrical precast concrete member described above, but may be made of a cylindrical steel member manufactured in a tubular shape using steel materials, wherein the ring-shaped shear connector is formed of a cylindrical steel structure. It can be fastened by welding etc. on an inner peripheral surface.

On the other hand, the structural member 10 is not necessarily limited to the cylindrical only, it is natural that it can be made in a cylindrical shape having a cross-sectional shape of all polygons, including the oval according to the cross-sectional shape of the shaft member to be formed.

Therefore, the reinforcing ring part 110 of the shear connecting member 100 of the present embodiment is formed in a disk-shaped ring shape having a predetermined width to be embedded in the cylindrical precast concrete member 10.

In addition, the shear connection part 120 has a predetermined distance along the circumferential direction of the reinforcing ring part 120 and the outer extension part 121 and the inner side which are formed to protrude to the outside and the inside of the reinforcing ring part 110 in the radial direction. The extension 122 is formed to form.

The outer extension 121 is formed to extend in the outer radial direction of the reinforcing ring 110 to be embedded in the precast concrete member 10 on the circumference of the reinforcing ring 110, the inner extension 122 is a reinforcing ring ( It is formed extending in the inner radial direction of the reinforcing ring portion 110 opposite to the outer extension portion 121 to be embedded in the site-casting concrete member 20 on the circumference of the 110.

The shear connector 100 of the present embodiment is the outer extension 121 of the reinforcement ring 110 and the shear connector 120 when the mass production of the cylindrical precast concrete member 10 in advance before the construction of the shaft structure is precast concrete Shear which is embedded in and fixed to the member 10, and then protrudes on the inner circumferential surface of the precast concrete member 10 inside the site-casting concrete member 20 that fills the interior of the precast structural member 10 and is cast in situ. The inner extension 122 of the connection portion 120 is buried to connect between the precast concrete member 10 and the cast-in-place concrete member 20 to reinforce the shear force acting therebetween.

In addition, a first reinforcing bar groove 125 is formed at the outer end portion 121 side end portion of the shear connection part 120 to be fixed to the first reinforcing bar 11 embedded in the precast concrete member 10. do.

In the present exemplary embodiment, the first reinforcing bar groove 125 may include a first guide groove 125a, a first locking groove 125b, and a first locking jaw portion 125c.

The first guide groove 125a is cut and formed to guide the first reinforcing bar 11 to be fitted in the width direction of the shear connection part 120 at the end portion of the outer extension part 121.

The first locking groove 125b is cut and formed in communication with the longitudinal direction of the front end connecting portion 120 from the end of the first guide groove 125a.

In addition, the first locking jaw portion 125c protrudes from the corner portion where the first guide groove portion 125a and the first locking groove portion 125b cross each other to catch and fix the first reinforcing bars fitted to the first locking groove portion 125b. Be sure to

In addition, the reinforcing bar hole 123 is formed at the inner extension part 122 side end of the shear connection part 120 so that the second reinforcing bar 21 embedded in the site-pouring concrete member 20 penetrates and fits.

As described above, both ends of the shear connector 120 are formed by using the first reinforcing bar groove 125 formed in the outer extension part 121 of the shear connector 120 and the reinforcing bar hole 123 formed in the inner extension part 122. By hooking and fixing the first reinforcing bar 11 of the precast concrete member 10 and the second reinforcing bar 21 of the site-cast concrete member 20, respectively, the precast structural member 10 and the site-cast concrete member ( 20) To support and reinforce tensile and compressive loads acting in between.

Hereinafter, modifications to the shear connector 100 of the first embodiment of the present invention will be described with reference to FIGS. 4 and 5.

4 and 5 are perspective views showing modifications to the shear connector of the first embodiment of the present invention.

The shear connector 100 shown in FIG. 4 has a first reinforcing bar groove 126 formed at an end portion of the outer extension 121 side of the shear connector 120 as compared with the shear connector of the first embodiment. There is a difference in configuration to have the second guide groove 126a and the second locking groove 126b to open in the longitudinal direction.

The second guide groove portion 126a is gradually narrower in the length direction from the outer end portion 121 side end portion of the shear connecting portion 120 to form a locking jaw portion, and the second locking groove portion 126b is the second guide groove portion. The first reinforcing bar 11 inserted through the first guide groove 126a is hooked and fixed to extend in the longitudinal direction of the shear connection part 120 so as to communicate with the locking step of 126a.

As such, by forming the second guide groove 126a of the first reinforcing bar groove 126 to open along the longitudinal direction of the shear connector 120 at the end face of the outer extension 121, the cylindrical precast concrete building member When mass production of the (10) to be more easily fitted into the first reinforcing reinforcing bars 11 installed before the concrete is placed to increase the convenience of work.

The shear connecting member 100 shown in FIG. 5 has a second reinforcement embedded in the site-casting concrete member 20 at the end of the inner extension portion 122 side of the shear connecting portion 120 as compared with the shear connecting member of the above-described modification. The second reinforcing bar groove 124 is formed to be fixed to the reinforcing bar 21 has a difference in configuration.

Here, the second reinforcing bar groove 124 is the third guide groove portion 124a and the third locking jaw portion 124b which are formed to open along the longitudinal direction of the shear connection portion 120 at the end of the inner extension portion 122. The third guide groove 124a and the third locking groove 124b have the same shape as the second guide groove 126a and the second locking groove 126b of the first rebar hook groove 126. .

Therefore, in the process of fitting and fixing the second reinforcing bars 21 installed before the site-pouring concrete member 20 in the second rebar hook groove 124 of the shear connector 100, the shear connector 100 is fixed. Make work more convenient.

Hereinafter, other embodiments of the shear connecting material of the present invention and modifications thereof will be described with reference to the accompanying drawings, respectively, and the same reference numerals are used for the same and similar configurations as those of the first embodiment. Repeated description thereof will be omitted.

FIG. 6 is a partially cutaway perspective view illustrating an application state of a shear connector according to a second exemplary embodiment of the present invention, FIG. 7 is a side cross-sectional view taken along the line VII-VII of FIG. 6, and FIG. 8 is a shear of FIG. 6. It is a perspective view which shows the connection material separated.

Referring to Figures 6 to 8, the shear connector 200 of the present embodiment, compared with the shear connector 100 of the first embodiment, the outer reinforcing ring portion 210, the inner reinforcing ring portion 220 and It is configured to include a plurality of shear connectors 230 for connecting between them.

As described above, the outer reinforcing ring part 210 is formed in a ring shape so as to be embedded in the cylindrical precast concrete member 10.

The inner reinforcing ring portion 220 is concentric with the outer reinforcing ring portion 210 and has a ring shape so as to be embedded in the site-pouring concrete member 20.

In addition, the shear connection part 230 has a plurality of predetermined distances along the circumferential direction of the outer reinforcing ring part 210 and the inner reinforcing ring part 220 in both directions in the radial direction, and the outer reinforcing ring part 210 and the inner reinforcing ring part 220. Are connected to each other.

As such, the shear connector 200 according to the present embodiment has both ends of the shear connector 230 connecting the cylindrical precast concrete member 10 and the in-situ concrete member 20 to the inside of the cylindrical precast concrete member 10, respectively. It is supported by the inner reinforcing ring portion 210 to be buried and the inner reinforcing ring portion 220 to be buried inside the cast-in-place concrete member 20 to support not only shear loads acting therebetween but also tensile and compressive loads. Ensure it is guaranteed.

On the other hand, the first reinforcing bar groove 231 for fixing to the first reinforcing bar 11 embedded in the precast concrete member 10 at the end of the outer reinforcing ring portion 210 side end of the shear connection 230 is formed In addition, a reinforcing bar hole 235 may be formed to penetrate through the second reinforcing bar 21 embedded in the site-pouring concrete member 20 at an end portion of the inner reinforcing ring part 220.

The first reinforcing bar groove 231 includes a first guide groove 231a formed to insert the first reinforcing bar 11 in the width direction of the shear connection portion 230, and an end of the first guide groove 231a. Protrudes from the corner where the first locking groove portion 231b and the guide groove portion 231a and the first locking groove portion 231b cross each other so as to communicate with each other in the longitudinal direction of the shear connection portion 230 toward the outer reinforcing ring portion 210. It may be configured to include a first locking jaw portion 231c is formed to hold and secure the first reinforcing reinforcing bars 11 inserted into the first locking groove 231b.

Therefore, the shear connector 200 of the present embodiment is the first reinforcing bar groove 231 and the reinforcing bars of both ends of the shear connector 230, which is supported at both ends by the outer reinforcing ring portion 210 and the inner reinforcing ring portion 220. Through the hook hole 235, the first reinforcing bar 11 embedded in the precast concrete member 10 and the second reinforcing bar 21 embedded in the site-cast concrete member 20 are fastened again. By doing so, it is possible to more effectively support and reinforce the tensile and compressive loads as well as the shear loads acting between the precast concrete member 10 and the site-cast concrete member 20.

9 and 10 are perspective views showing modified examples of the shear connector according to the second embodiment of the present invention.

First, the shear connector 200 shown in Figure 9, compared with the shear connector in the second embodiment described above, the first reinforcing bar groove (formed at the end of the outer ring reinforcement portion 210 side of the shear connector 230 ( The second guide groove portion 232a which gradually decreases in width along the longitudinal direction of the shear connection portion 230 on the outer circumferential surface of the outer reinforcing ring portion 210 where the 232 meets the outer end of the shear connection portion 230 and Difference in the configuration including a second locking groove 232b which extends in the longitudinal direction of the shear connecting portion 230 so as to communicate from the locking jaw of the second guide groove 232a to which the first reinforcing bar 11 is inserted and fixed Has

In addition, the shear connector 200 shown in FIG. 10 has an inner reinforcement ring 220 side of the shear connector 230 instead of the reinforcing hook groove 235 as compared with the shear connector of the modification of the second embodiment. The second reinforcing bar groove 236 may be formed so that the second reinforcing bar 21 embedded in the site-pouring concrete member 20 penetrates through and fits on the inner circumferential surface of the inner reinforcing ring portion that meets the end.

In addition, the second reinforcing bar groove 236 gradually narrows along the longitudinal direction of the shear connection part 230 on the inner circumferential surface of the inner reinforcing ring part 220 that meets the inner end of the shear connection part 230 and forms a locking step. Including the third locking groove 236b is formed extending in the longitudinal direction of the shear connecting portion in communication with the locking projection of the third guide groove 236a and the third guide groove 236a to which the second reinforcing bars 21 are fitted. Can be configured.

As described above, the first and second reinforcing bar grooves 232 and the second reinforcing bar grooves 236 formed at both ends of the shear connection unit 230 of the shear connection member 200 shown in FIGS. It is possible to increase the convenience of the operation for the fixing work to be fixed to the first reinforcing bar 11 and the second reinforcing bar 21 embedded in the cast concrete member 10 and the cast-in-place concrete member 20 .

FIG. 11 is a partially cutaway perspective view illustrating an application state of a shear connector according to a third exemplary embodiment of the present invention. FIG. 12 is a side cross-sectional view taken along the line II-XIII of FIG. 1, and FIG. 13 is a shear of FIG. 11. It is a perspective view which shows the connection material separated.

Referring to FIGS. 11 to 13, the shear connecting member 300 of the present embodiment is a reinforcing ring part 310 and the shear connecting part 320, compared to the shear connecting members 100 and 200 of the first and second embodiments described above. And the reinforcing plate 330 has a difference.

Here, the reinforcing ring 310 is formed in a ring shape to be embedded in the cylindrical precast concrete member 10.

Shear connector 320 is installed in a plurality of radially extending in the radial direction at a predetermined distance in the circumferential direction from the reinforcing ring 310, to connect the precast concrete member 10 and the site-cast concrete member 20.

In addition, the reinforcing plate portion 330 is orthogonal to the longitudinal direction of the shear connection portion 320 at the inner end of the site-in-place concrete member 20 side of the shear connection portion 320 is formed extending in a T-shape in the upper, lower direction .

Accordingly, the shear connector 300 of the present embodiment is reinforced by grasping the precast concrete member 10 side end of the shear connection part 320 by the reinforcing ring 310, while reinforcing the end portion of the site-cast concrete member 20 side. Hold and secure with portion 330 to support and reinforce not only shear loads acting therebetween but also tensile and compressive loads.

On the other hand, the first reinforcing bar groove 321 is formed to be fixed to the first reinforcing bar 11 embedded in the precast concrete member 10 at the end of the reinforcing ring portion 310 side of the shear connection part 320 At the end of the reinforcing plate 330, a second reinforcing bar groove 325 may be formed to fit and fix the second reinforcing bar 21 embedded in the site-pouring concrete member 20.

As described above, each of the first reinforcing bar grooves 321 includes a first guide groove part, a first locking groove part, and a first locking jaw part, and the second rebar hanging groove 325 also includes a second guide groove part, It is configured to include a second locking groove portion and the second locking jaw portion, it is obvious that it can be applied to the other forms of modification described above.

Therefore, the shear connector 300 of the present embodiment is the first reinforcing hook groove 321 and the second end of both ends of the shear connector 320 is supported by both ends by the reinforcing ring portion 310 and the reinforcing plate portion 330. The second reinforcing bar 11 embedded in the precast concrete member 10 and the second rebar 21 embedded in the site-pouring concrete member 20 through the reinforcing bar groove 325 to be fixed once again By doing so, it is possible to more effectively support and reinforce the tensile and compressive loads acting between the precast concrete member 10 and the site-cast concrete member 20.

14 is a perspective view showing a modification to the shear connector of the first embodiment of the present invention.

In the shear connector 300 shown in FIG. 14, the reinforcing plate part 335 has a predetermined inclination angle from the longitudinal direction of the shear connector 320 and is symmetrical compared with the shear connector of the third embodiment. Up and down in the drawing) has a difference in configuration to form a Y-shaped extension.

As such, the reinforcing plate portion 335 has an inclination angle of about 120 ° from the longitudinal direction at the inner end of the shear connecting portion 320 and has a Y-shape and is formed to extend, so that the shear connecting portion embedded in the site-pouring concrete member 20. Grasp and secure the inner end of the 320 to reinforce the tensile and compressive loads, and to distribute the tensile and compressive loads acting along the longitudinal direction of the reinforcing plate 335 in the oblique direction to more effectively precast concrete members To support and reinforce the tensile and compressive loads generated between the 10 and the site-cast concrete member 20.

FIG. 15 is a partially cutaway perspective view illustrating an application state of a shear connector according to a fourth exemplary embodiment of the present invention, FIG. 16 is a side cross-sectional view taken along line VI-VI of FIG. 1, and FIG. 17 is a shear of FIG. 15. It is a perspective view which shows the connection material separated.

Referring to Figure 15 to 17, the shear connector 400 of the present embodiment, compared with the shear connector 100, 200, 300 of the above-described embodiments, the reinforcing ring 410, the inclined shear connector 420 ) And a fixed plate portion 430 is configured.

The reinforcing ring part 410 is formed in a disk-shaped ring shape having a predetermined width so as to be embedded and fixed in the cylindrical precast concrete member 10.

The inclined shear connecting portion 420 is installed to be inclined in the radial direction in a plurality of predetermined distance in the circumferential direction from the reinforcing ring portion 410, the joint formed by the precast concrete member 10 and the cast-in-place concrete member 20 It has a predetermined angle of inclination with the surface and is formed to connect with each other.

Here, the inclined shear connector 420 is formed to be inclined in the direction of the main force of the shear load acting between the cylindrical precast concrete member 10 and the site-cast concrete member 20, that is, in the inclination direction of approximately 35 ° to 55 ° range It is preferable to be.

In the present embodiment, the inclined shear connecting portion 420 is formed with an inclination angle in a 45 ° inclination direction in which the maximum shear load acts between them from the joint surface of the precast concrete member 10 and the cast-in-place concrete member 20 in cross section. Illustrate that.

The fixed plate part 430 extends vertically along the inclined surface of the inclined shear connector 420 at the reinforcement ring part 410 side end of the inclined shear connector 420, and the inclined shear connector (410) in the reinforcing ring part 410. 420 is formed in a triangular plate shape to hold and secure.

On the other hand, the ring fixing groove 431 is formed so that the inner circumferential surface side of the reinforcing ring portion 410 is fitted to the reinforcing ring portion 410 side end of the fixing plate portion 430 is fixed by welding or the like.

Accordingly, the fixing plate part 430 serves to fix the inclined transfer connector 420 to the ringgo part 410 so as to connect the precast concrete member 10 and the cast-in-place concrete member 20 with an inclination angle of 45 °. do.

As such, the shear connector 400 of the present embodiment is inclined shear connection portion 420 is inclined between the precast concrete member 10 and the cast-in-place concrete member 20 to support the shear load acting between them It also improves the strength and also allows some support and reinforcement for the tensile and compressive loads acting between the precast concrete member 10 and the in-place concrete member 20.

18 is a perspective view showing a modification to the shear connector of the fourth embodiment of the present invention.

Compared to the shear connector of the fourth embodiment, the shear connector 400 shown in FIG. 18 has a reinforcing ring part 411 having a cylindrical ring shape having a predetermined height, and the fixing plate part 430 is reinforced. The rear end face is coupled to the inner circumferential surface of the ring portion 411 so as to have a triangular plate shape so as to be parallel to the joint surface.

Therefore, it is possible to increase the support strength of the inclined shear connecting portion 420 fixed to the reinforcing ring portion 411 by the fixing plate 430.

19 is a partially cutaway perspective view illustrating an application state of a shear connector according to a fifth exemplary embodiment of the present invention, FIG. 20 is a side cross-sectional view taken along the line VII-VII of FIG. 1, and FIG. 21 is a shear of FIG. 19. It is a perspective view which shows a connection material.

19 to 21, the shear connector 500 is fixed to the outer reinforcing ring part 510 and at least one end thereof, as compared with the shear connectors 100 to 400 of the aforementioned embodiments. There is a difference configured to include a plurality of shear connection portion 520 is provided.

Here, the outer reinforcing ring portion 510 is formed in a cylindrical ring shape having a predetermined height that is embedded and fixed to the cylindrical precast concrete member 10.

In addition, the shear connection part 520 is installed in a plurality of radially extending in the inner radial direction at a predetermined distance in the circumferential direction from the outer reinforcing ring part 510, connecting the precast concrete member 10 and the site-cast concrete member 20 It is formed to.

On the other hand, both ends of the shear connection portion 520 is provided with a first fixing ring 525 and a second fixing ring 521, respectively.

The first fixing ring 525 is formed in a cylindrical shape so that the second reinforcing bar 21 embedded in the site-pouring concrete member 20 penetrates and fits at an inner end portion embedded in the site-pouring concrete member 20, The second fixing ring 521 is formed in a cylindrical shape so that the first reinforcing bar 11 embedded in the precast concrete member 10 penetrates and fits at the inner end portion connected to the outer reinforcing ring part 510.

Therefore, the shear connector 500 of the present embodiment is made of the site-cast concrete member 20, which is fitted to both the first fixing ring and the second fixing ring both ends of the shear connection portion 520 supported by the outer reinforcing ring portion 510. The second reinforcing bar 21 and the first reinforcing bar of the precast concrete member 10 are once again grasped and fixed, thereby supporting and reinforcing the tensile and compressive loads as well as the shear loads acting therebetween.

22 is a perspective view showing a modification to the shear connector of the fifth embodiment of the present invention.

The shear connector 500 shown in FIG. 22 uses the first fixing rings 525 at the inner end side of the site-cast concrete member 20 of the shear connector 520 in comparison with the shear connector of the fifth embodiment. The inner reinforcing ring portion 530 having a cylindrical ring shape to be connected to each other has a difference configured.

The inner reinforcement ring part 530 is embedded in the site-pouring concrete member 20 by connecting the first fixing rings 525 to which the second reinforcing bar 21 of the site-pouring concrete member 10 is fitted and fixed to each other. By increasing the support strength of the inner end of the shear connection 520, it is possible to more effectively support and reinforce the tensile and compressive loads acting therebetween.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications or changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. In addition, it is natural that it belongs to the scope of the present invention.

10: precast concrete member 11: first rebar
20: cast-in-place concrete member 21: the first rebar
100: shear connector 110: reinforcing ring
120: shear connection 121: outer extension
122: inner extension portion 123: rebar hooking
124: second rebar hook groove 124a: third guide groove
124b: third locking groove 124c: third locking jaw
125: first reinforcing bar groove 125a: first guide groove
125b: first locking groove 125c: first locking jaw
126: first reinforcing bar groove 126a: second guide groove
126b: second locking groove
200: ring type shear connection portion 210: outer reinforcement ring portion
220: inner reinforcing ring portion 230: shear connection portion
231: first reinforcing bar groove 231a: first guide groove
231b: first locking groove 231c: first locking jaw
232: first reinforcing bar groove 232a: second guide groove
232b: second locking groove 235: rebar hook work
236: second rebar hook groove 236a: third guide groove
236b: third locking groove 236c: third locking jaw
300: shear connector 310: reinforcing ring
320: shear connecting portion 330: reinforcing plate portion
321: first rebar hook groove 325: second rebar hook groove
335: reinforcement plate
400: shear connector 410: reinforcing ring
420: inclined shear connector 430: fixed plate
431: ring fixing groove 411: reinforcing ring
500: shear connector 510: outer reinforcing ring
520: shear connection portion 521: second fixing ring
525: first fixing ring 530: inner reinforcing ring portion

Claims (32)

In the shear connector that connects the elevated tubular structural member and the cast-in-place concrete member filling the interior of the structural member and reinforces shear force generated therebetween,

The shear connector,
A reinforcing ring part fixed to the structural member and forming a ring shape; And
It includes; a plurality of shear connecting portion for extending in the radial direction at a predetermined distance along the circumferential direction of the reinforcing ring portion, connecting the structural member and the site-cast concrete member;

The shear connection portion,
An outer extension portion extending in an outer radial direction of the reinforcement ring portion to be fixed to the structural member on a circumference of the reinforcement ring portion; And
Shear connector comprising an inner extension extending in the radial direction of the inner reinforcement ring portion is embedded in the on-site cast concrete member on the circumference of the reinforcement ring portion.
In claim 1,
And said structural member is a tubular steel member made of steel.
In claim 2,
The structural member,
The reinforcing ring portion and the outer extension portion of the shear connecting portion is a precast concrete member of a cylindrical shape buried therein,

The shear connection portion,
And a first reinforcing bar groove formed at the end of the outer extension side to be fixed to the first reinforcing bar embedded in the precast concrete member.
4. The method of claim 3,
The first rebar hook groove,
A first guide groove formed to guide the first reinforcing bar in the width direction at an end portion of the front end connection of the outer extension part;
A first catching groove formed to communicate in a length direction of the outer extension part from an end of the first guide groove; And
And a first locking jaw portion formed to protrude from an edge portion where the first guide groove portion and the first locking groove portion intersect so that the first reinforcing bars fitted to the first locking groove portion are caught and fixed.
4. The method of claim 3,
The first rebar hook groove,
A second guide groove portion gradually narrowing in a length direction at an end portion of the shear extension portion at an end of the outer extension portion and forming a locking jaw portion; And
And a second locking groove portion extending in the longitudinal direction of the shear connecting portion so as to communicate with the locking jaw portion of the second guide groove portion so that the first reinforcing bar is fitted and fixed through the second guide groove portion.
In claim 1,
The shear connector,
Shear connecting material is formed in the reinforcing hook hole is formed so that the second reinforcing bar embedded in the site-casting concrete member penetrates through the inner extension side end portion.
In claim 1,
The shear connector,
And a second reinforcing bar groove formed at an end portion of the inner extension part such that a second reinforcing bar embedded in the site-pouring concrete member is fitted and fixed.
In claim 7,
The second rebar hook groove,
A third guide groove portion gradually narrowing in a longitudinal direction at an end portion of the inner side extension portion of the shear connection portion to form a locking jaw portion; And
And a third locking groove portion extending in the longitudinal direction of the shear connecting portion so as to communicate with the locking jaw portion of the third guide groove portion to which the second reinforcing bars are inserted and fixed.
In the shear connector to connect the elevated tubular structural member and the cast-in-place concrete member filling the interior of the structural member and reinforces the shear force generated therebetween,

The shear connector,
A ring-shaped outer reinforcing ring part fixed to the structural member;
A ring-shaped inner reinforcing ring portion embedded in the site-pouring concrete member inside the outer reinforcing ring portion; And
And a plurality of shear connecting portions each of which is connected to the outer reinforcing ring portion and the inner reinforcing ring portion at predetermined distances along a circumferential direction of the outer reinforcing ring portion and the inner reinforcing ring portion.
The method of claim 9,
And said structural member is a tubular steel member made of steel.
The method of claim 9,
The structural member,
The outer reinforcing ring portion and the outer portion of the shear connection portion adjacent to the outer reinforcing ring portion is a tubular precast concrete member embedded therein,

The shear connection portion,
Shear connector for forming a first reinforcing bar groove for fixing to the first reinforcing bar embedded in the precast concrete member at the end of the outer reinforcing ring portion.
12. The method of claim 11,
The first rebar hook groove,
A first guide groove formed to guide the first reinforcing bar in the width direction of the shear connection part;
A first locking groove formed to communicate in a length direction of the shear connecting portion from an end of the first guide groove toward the outer reinforcing ring; And
And a first locking jaw portion protruding from the corner of the first guide groove portion and the first locking groove portion to hold and fix the first reinforcing bars fitted to the locking groove portion.
12. The method of claim 11,
The first rebar hook groove,
A second guide groove portion on the outer circumferential surface of the outer reinforcing ring portion that meets the outer end portion of the shear connecting portion and gradually narrowing in a length direction of the shear connecting portion to form a locking jaw portion; And
And a second locking groove portion extending in the longitudinal direction of the shear connecting portion so as to communicate with the locking jaw portion of the second guide groove portion to which the first reinforcing bars are inserted and fixed.
The method of claim 9,
The shear connector,
Shear connecting member is formed through the reinforcing bar hole is formed so that the second reinforcing bar embedded in the site-cast concrete member is inserted into the inner reinforcing ring portion end.
The method of claim 9,
The shear connector,
On the outer circumferential surface of the outer reinforcing ring portion that meets the end portion of the inner reinforcing ring portion
Shear connector for forming a second reinforcing bar groove so that the second reinforcing steel embedded in the site-cast concrete member is penetrated and fitted.
16. The method of claim 15,
The second rebar hook groove,
A third guide groove portion on the outer circumferential surface of the inner reinforcing ring portion that meets the inner end portion of the shear connecting portion and gradually narrowing in a length direction of the shear connecting portion to form a locking jaw portion; And
And a third locking groove portion extending in the longitudinal direction of the shear connecting portion so as to communicate with the locking jaw portion of the third guide groove portion to which the second reinforcing bars are inserted and fixed.
In the shear connector for connecting the structural member and the cast-in-place cast concrete member filling the inside of the structural member and reinforces the shear force generated therebetween,

The shear connector,
A ring-shaped reinforcement ring part fixed to the structural member;
A plurality of shear connection parts extending in an inner radial direction at a predetermined distance in the circumferential direction from the reinforcing ring part and connecting the structural member and the site-cast concrete member; And
And a reinforcing plate part extending in a direction intersecting with the shear connection part at the inner end of the site-in-place concrete member side of the shear connection part.
The method of claim 17,
The reinforcing plate portion,
Shear connector extending in both directions perpendicular to the shear connector.
The method of claim 17,
The reinforcing plate portion,
Shear connector having a predetermined inclination angle from the shear connection portion extending in both directions symmetrical to each other.
The method of claim 17,
And said structural member is a tubular steel member made of steel.
20. The method of claim 19,
The structural member,
The outer ring portion of the reinforcing ring portion and the shear connection portion adjacent to the reinforcing ring portion is a precast concrete member of a cylindrical shape embedded therein,

The shear connection portion,
Shear connecting member is formed in the first reinforcing bar groove for fixing to the first reinforcing bar embedded in the precast concrete member at the end of the reinforcing ring portion.
22. The method of claim 21,
The first rebar hook groove,
A first guide groove formed to guide the first reinforcing bar in the width direction of the shear connection part;
A first catching groove formed in a length direction of the shear connecting portion from an end of the first guide groove toward the outer reinforcing ring; And
And a first locking jaw portion protruding from the corner of the first guide groove portion and the first locking groove portion to catch and fix the first reinforcing bars fitted to the first locking groove portion.
The method of claim 17,
The shear connector,
And a second reinforcing bar groove formed at the end of the cast-in-place concrete member so that a second reinforcing bar embedded in the cast-in-place concrete member is fitted into and fixed.
The method of claim 23,
The second rebar hook groove,
A second guide groove formed to insert the first reinforcing bar in a width direction at an inner end of the shear connection part;
A second locking groove formed in the longitudinal direction of the front end connecting portion from the end of the second guide groove toward the outer reinforcing ring; And
And a second locking jaw portion protruding from the edge of the second guide groove portion and the second locking groove portion to catch and fix the second reinforcing bars fitted to the locking groove portion.
In the shear connector to connect the elevated tubular structural member and the cast-in-place concrete member filling the interior of the structural member and reinforces the shear force generated therebetween,

The shear connector,
A ring-shaped reinforcement ring part fixed to the structural member;
It is installed to extend inclined in the inner radial direction at a predetermined distance in the circumferential direction from the reinforcing ring portion,
A plurality of inclined shear connectors connecting each other with a joint surface formed by the structural member and the site-cast concrete member and having a predetermined inclination angle;
It is installed vertically extending along the inclined surface of the inclined connecting plate at the reinforcing ring portion side end of the inclined shear connecting portion,
And a fixing plate part configured to hold and secure the inclined shear connection part to the reinforcing ring part.
26. The method of claim 25,
The inclined shear connector,
Shear connector formed with an inclination angle in the range of 35 ° to 55 ° with the joint surface formed by the structural member and the cast-in-place concrete member.
26. The method of claim 25,
The reinforcing ring portion is made of a plate-shaped ring shape having a predetermined width,

The fixed plate,
Shear connecting member is formed in the end of the reinforcing ring portion is formed with a ring fixing groove which is fixed to the inner peripheral surface side of the reinforcing ring portion.
26. The method of claim 25,
The reinforcing ring portion is made of a cylindrical ring shape having a predetermined height,

The fixed plate portion,
Shear connecting member having a triangular plate shape so that the rear end surface coupled to the inner peripheral surface of the reinforcing ring portion parallel to the joint surface.
In the shear connector for connecting the structural members of the eluted cylindrical structure and the cast-in-place concrete members that fill the interior of the structural member and reinforces the shear force generated therebetween,

The shear connector,
An outer reinforcing ring portion having a cylindrical ring shape having a predetermined height fixed to the structural member; And
And a plurality of shear connection parts extending in the inner radial direction at a predetermined distance in the circumferential direction from the outer reinforcing ring part and connecting the structural member and the site-cast concrete member.

The shear connector,
Shear connector for forming a first fixing ring which is inserted into the second reinforcing reinforcement embedded in the site-pouring concrete is fixed to the inner end portion embedded in the site-pouring concrete.
The method of claim 29,
And an inner reinforcing ring portion having a ring shape to connect the first fixing rings at the inner end of the site-cast concrete member side of the shear connecting portion.
The method of claim 29,
And said structural member is a tubular steel member made of steel.
The method of claim 29,
The structural member,
The outer reinforcing ring portion and the outer part of the shear connection portion adjacent to the outer reinforcing ring portion is a precast concrete member embedded in the interior,

The shear connection portion,
And a second fixing ring to which the second reinforcing bars embedded in the precast concrete member are inserted and fixed at an inner end portion connected to the outer reinforcing ring portion.

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