KR102415640B1 - PreCast Concrete Structure Connecting Device - Google Patents

Abstract

The present invention relates to a device for connecting a precast concrete structure. The device comprises: a lower joint part joined to a lower portion thereof when precast concrete is assembled, for supporting each of lower joint rebar, which are rebars joined to each other thereinside at a plurality of locations, while the outer circumference of the lower joint rebar is surrounded, and having an upper portion of the lower joint rebar provided in the shape of an expanded head; a spiral part disposed to protrude upward from the inside of the lower joint part, provided in a spiral shape, and inserted and fixed to support the lower joint rebar located in the center thereof while buffering left and right movement by elasticity; an upper joint part disposed in an upper portion thereof joined to the lower joint part, having an upper joint rebar provided in the center thereof to fit the spiral part, and having a lower portion provided in the shape of an expanded head and supported by touching the expanded head of the lower joint part; and a filling part disposed in an inner portion in which the lower joint part and the upper joint part are joined, and filled with a filler to fix the inner portion while after the spiral part is fitted and fixed to the lower joint part, the upper joint part is joined to the lower joint part. Therefore, the device can minimize construction errors, thereby increasing precision.

Description

Precast Concrete Structure Connecting Device {PreCast Concrete Structure Connecting Device}

The present invention relates to a bonding device for mutually bonding precast concrete structures manufactured in a factory.

In general, concrete structures such as culverts, retaining walls, tunnels, etc. can be installed by pouring concrete directly at the construction site, but there is a problem that concrete pouring work is difficult or takes a long time depending on the conditions of the construction site.

As a solution to this problem, a precast concrete structure installation method in which the concrete structure required in the factory is divided into appropriate sizes and pre-fabricated, and then the pre-fabricated concrete structures are transported to the construction site and assembled is widely used.

When performing the precast concrete structure installation method as described above, the precast concrete structure is connected to each other using a reinforcing bar coupler.

For example, a grouting method can be performed to connect two precast concrete structures with overlapping reinforcing bars and fill the joint with concrete or filler, but in this case, Since the reinforcing bars are overlapped, the stress axis of the reinforcing bars is not continuous and disconnected, and thus the continuity of the reinforcing bars cannot be secured.

On the other hand, a method of welding the ends of reinforcing bars connecting two precast concrete structures to each other is being implemented, but the welding performance is differentiated according to the skill of the welding technician, and the welding operation itself is inconvenient.

Accordingly, recently, according to the prior art of Patent Publication No. 10-2019-0043293 published on April 26, 2019, concave-convex metal couplers are installed on mutually connected reinforcing bars of each structure to be joined to promote bonding while interconnected. Joints were poured and cured by curing.

The joint structure of the precast concrete structure of the prior art is installed by lifting the heavy concrete and inserting it into the concave-convex metal coupler installed in the connection part. If the insertion position of the concave-convex metal coupler is misplaced, there is a problem in that it is deformed or damaged.

In addition, in the joint structure of the precast concrete structure of the prior art, when the reinforcing bars inserted into the concave-convex metal coupler come into contact with each other, the horizontality is not correct and distortion occurs. There was a problem in that it was cured and hardened and warped, resulting in construction errors.

The present invention has been devised to solve the above problems, and an object of the present invention is to protrude in a state of being buried inside each structure at a plurality of positions where the upper structure and the lower structure to be assembled during assembly of the precast concrete structure are joined. A precast concrete structure bonding device that can increase precision by minimizing construction errors by joining reinforcing bars in the shape of an enlarged head with each other magnetically, and inserting a spiral-shaped insert that restores the left and right flow to the original position by elasticity around the outer periphery. is in providing.

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood from the description below.

In order to achieve the above object, the apparatus for joining a precast concrete structure according to an embodiment of the present invention wraps around the outer periphery of a lower joint reinforcing bar that is a reinforcing bar connected to the inside at a plurality of positions joined to the lower portion during assembling of precast concrete. a lower junction part supporting the upper part of the lower junction reinforcing bar in the form of an enlarged head; a spiral part protruding from the inside of the lower junction part in an upward direction, provided in a spiral shape, and inserted and fixed to support the lower junction reinforcing bar located in the center while buffering the flow on the left and right by elasticity; an upper junction part disposed on the upper part joined to the lower junction part, having an upper junction reinforcing bar into which the spiral part is inserted in the center, and provided in the form of an enlarged head at the lower part supported in contact with the enlarged head of the lower junction part; and a filling part disposed inside the junction of the lower junction part and the upper junction part, and filled with a filling material to fix the inside in a state in which the upper junction part is joined after inserting and fixing the spiral part into the lower junction part; do.

In addition, the lower joint portion, a lower joint space provided in the form of a cylindrical groove as a joint portion of the lower joint structure located in the lower portion when assembling the precast concrete structure; The lower junction body is disposed inside the lower junction space and has a lower junction hole in the form of a through hole in the center of the lower junction in a cylindrical shape with an open upper part and supporting and fixing while closing the lower junction space, and the spiral part is inserted therein. ; a spiral support body which is disposed protruding in the central direction on the inner lower side of the lower joint body and provided to support and support the lower part of the spiral part inserted inward; a lower junction reinforcing bar disposed in the inner center of the lower junction body, inserted into the lower junction through hole at the center into which the spiral part is inserted, and protruding to be joined with the upper junction part inside the lower junction body; and a lower enlarged head that is disposed on the lower junction reinforcing bar and is provided in the form of an enlarged head having an enlarged cross-sectional area than the lower junction reinforcing bar, and is abutted and joined to the upper junction portion.

In addition, the spiral part is arranged to be inserted into the upper junction in a state where the lower junction is inserted and fixed, and the spiral body returns to its original position by elasticity when flow occurs in the left and right in a spiral shape; It may include; and a bar-shaped spiral support that is fixed vertically and transversely to at least one at a position facing each other inwardly of the spiral body to support the spiral body.

In addition, the upper junction portion may include: an upper junction space provided in the form of a cylindrical groove communicating with the junction part of the lower junction part as a junction part of the upper junction structure joined by assembly with the lower junction part; an upper junction reinforcing bar protruding in the inner center of the upper junction space and protruding in the direction of the lower junction at the center into which the spiral part is inserted; and an upper enlarged head that is disposed under the upper junction reinforcing bar and is provided in the form of an enlarged head having an enlarged cross-sectional area than the upper junction reinforcing bar, and is abutted to and joined to the lower junction portion.

In addition, according to another embodiment of the present invention, a bonding magnetic body that is disposed as a lower surface in the form of an enlarged head of the lower portion of the upper junction, and maintains a position to be joined with the enlarged head of the upper portion of the lower junction by magnetic force; may further include.

In addition, according to another embodiment of the present invention, it is disposed protruding on the upper part in the form of an enlarged head on the upper part of the lower junction part, and when joining the upper junction part, it is caught in the state in which the junction magnetic body is inserted to maintain the fixed position to be joined. It may further include a magnetic locking jaw protruding in the shape of a jaw.

And, according to another embodiment of the present invention, a groove-shaped magnetic force insertion groove is provided in the center of the bonding magnetic body, and it is protruded at the center in the downward direction of the enlarged head below the upper junction part, and the bonding magnetic force It may further include a; magnetic locking protrusion inserted into the magnetic force insertion groove during bonding of the sieve to maintain the original position.

In addition, according to another embodiment of the present invention, the filling part is cured by injecting a material to be joined at a plurality of positions where the upper junction part and the lower junction part are joined, and the upper junction part and the lower junction part come into contact with each other and are joined. When the position is closed, the filling material may be provided with a lower inlet through which the filling material flows into the lower junction, and an upper outlet discharged to the upper junction after inflow and filling to fill the inside.

In addition, the filling part opens a part to the outside at a plurality of positions where the upper junction part and the lower junction part are joined to the outside and inserts and fixes the spiral part into the lower junction part. It can be provided by filling.

Specific details for achieving the above object will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be configured in various different forms, and these embodiments allow the disclosure of the present invention to be complete and provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention.

According to one of the means for solving the problems of the present invention described above, when assembling a precast concrete structure, at a plurality of positions where the upper structure and the lower structure to be assembled are joined, the reinforcing bars protruding in a buried state inside each structure are expanded in the form of an enlarged head. It provides the effect of increasing the precision by minimizing construction errors by inserting a spiral-shaped insert that returns the left and right flows to the original position by elasticity around the outer periphery.

1 is a block diagram showing an apparatus for bonding a precast concrete structure according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram showing a lower joint part of the precast concrete structure bonding apparatus of FIG. 1 .
3 is a configuration diagram showing a state in which the spiral part is installed in the lower joint portion of the precast concrete structure bonding apparatus of FIG. 1 .
4 is an exploded perspective view showing the disassembled state of the precast concrete structure bonding apparatus of FIG. 1 .
5 is a block diagram showing a precast concrete structure bonding apparatus according to a second embodiment of the present invention.
6 is a block diagram showing an apparatus for bonding a precast concrete structure according to a third embodiment of the present invention.
7 is a block diagram showing a precast concrete structure bonding apparatus according to a fourth embodiment of the present invention.
8 is a block diagram showing an apparatus for bonding a precast concrete structure according to a fifth embodiment of the present invention.
9 is a block diagram showing a precast concrete structure bonding apparatus according to a sixth embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as “connected” or “connected” with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

The suffixes "module" and "part" for components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have distinct meanings or roles by themselves. In addition, in order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

Hereinafter, detailed contents for practicing the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing a precast concrete structure bonding apparatus according to a first embodiment of the present invention, FIG. 2 is a block diagram showing a lower joint part of the precast concrete structure bonding apparatus of FIG. 1, and FIG. 3 is a configuration diagram showing a state in which the spiral part is installed in the lower joint portion of the precast concrete structure bonding apparatus of FIG. 1 , and FIG. 4 is an exploded perspective view showing the disassembled state in the precast concrete structure bonding apparatus of FIG. 1 .

1 to 4, the precast concrete structure bonding apparatus 100 according to the first embodiment of the present invention is provided at a plurality of positions where the upper junction structure 131 and the lower junction structure 111 are assembled, respectively. Reinforcing bars protruding from the inside of the structure are joined together magnetically in the shape of an enlarged head, and a spiral-shaped insert that restores the left and right flow to the original position by elasticity is inserted around the outer periphery to minimize construction errors and improve precision. It is a bonding device that can be raised.

Such a precast concrete structure bonding apparatus 100 includes a lower joint portion 110 , a spiral portion 120 , an upper joint portion 130 , and a filling portion 140 .

The lower junction 110 is supported in a state of being supported so as to surround the outer periphery of the lower junction reinforcing bar 116, which is a reinforcing bar connected to the inside at a plurality of positions joined to the lower part during assembling of the precast concrete, and the lower junction reinforcing bar 116 ) in the form of an enlarged head.

This, the lower junction 110 includes a lower junction space 112 , a lower junction body 113 , a spiral support body 115 , a lower junction reinforcing bar 116 , and a lower enlarged head body 117 .

The lower joint space 112 is a joint portion of the lower joint structure 111 located at the lower portion when assembling the precast concrete structure, and is provided in the form of a cylindrical groove.

The lower junction body 113 is disposed inside the lower junction space 112, the upper part is opened and the lower junction space 112 is closed while being supported and fixed in a cylindrical shape, and the lower junction through hole 114 in the form of a through hole in the center of the lower part. ), and the spiral part 120 is inserted therein.

As such, the lower joint body 113 is provided to support the inserted spiral part 120 while reinforcing the inside of the lower joint space 112 where the joint load is concentrated, thereby improving joint strength.

The spiral support body 115 is disposed to protrude in the central direction on the inner lower side of the lower joint body 113 , and is provided to support and support the lower portion of the spiral part 120 .

As such, the spiral support body 115 supports the lower part of the spiral part 120 inserted and installed from the lower part of the lower joint body 113 by the support, thereby buffering the left and right flow by elasticity, thereby minimizing the construction error. .

The lower junction reinforcing bar 116 is disposed in the inner center of the lower junction body 113, and is inserted into the lower junction through hole 114 at the center where the spiral part 120 is inserted, and the upper junction part inside the lower junction body 113 It protrudes to be joined with (130).

The lower extended head body 117 is disposed on the upper part of the lower junction reinforcing bar 116, and is provided in the form of an enlarged head with an enlarged cross-sectional area than the lower junction reinforcing bar 116 so as to contact and join the upper junction part 130. .

That is, the lower extension head that improves the mutual horizontality while expanding the joint part as the joint part is enlarged and the reinforcing bar installed in the joint part of the lower joint reinforcing bar 116 and the upper joint part 130 is in contact with each other and it is difficult to achieve horizontal alignment when joining. As the sieve 117 and the enlarged portion of the upper joint 130 are contacted and joined to each other, the construction error can be reduced and the precision can be improved.

The spiral part 120 is disposed protruding from the inside of the lower junction part 110 in the upper direction, and is provided in a spiral shape to buffer the flow on the left and right by elasticity and is inserted and fixed to support the lower junction reinforcing bar 116 located in the center. do.

The spiral part 120 includes a spiral body 121 and a spiral support 122 .

The spiral body 121 is inserted into the lower junction body 113 and is disposed to be inserted into the upper junction part 130 in a state where it is hooked and fixed to the spiral support body 115, and has a spiral shape and is elastic when left and right flow occurs. It is provided to return to the original position by

The spiral support body 122 is provided in the form of a bar to support the spiral body 121 by being fixed vertically and horizontally at least one or more at a position facing each other inside the spiral body 121 .

The upper junction 130 is disposed on the upper part to be joined to the lower junction 110, has an upper junction reinforcing bar 133 into which a spiral part is inserted in the center, and is supported in contact with the enlarged head of the lower junction part in the form of an enlarged head in the lower part. provided with

This, the upper junction 130 includes an upper junction space 132 , an upper junction reinforcing bar 133 , and an upper enlarged head body 134 .

The upper junction space 132 is provided in the form of a cylindrical groove communicating with the lower junction space 112 as a junction part of the upper junction structure 131 joined by the lower junction part 110 and assembly.

The upper junction reinforcing bar 133 is disposed to protrude in the inner center of the upper junction space 132 , and is provided to protrude in the direction of the lower junction part 110 at the center into which the spiral part 120 is inserted.

The upper extended head body 134 is disposed below the upper junction reinforcing bar 133 and is provided in the form of an enlarged head with an enlarged cross-sectional area than the upper junction reinforcing bar 133 so that it comes into contact with the lower extended head body 117 and is joined. provided

That is, as the upper extension head 134 is filled in contact with the lower extension head 117 during bonding, the bonding surface is enlarged and the vertical error can be minimized to improve precision.

The filling part 140 is disposed inside the junction of the lower junction part 110 and the upper junction part 130, and after inserting and fixing the spiral part 120 into the lower junction part 110, the upper junction part 130 is joined. It is provided to fill the filling material in order to fix the inside.

Such a filling material is provided to fill and fix the lower joint part 110, the spiral part 120, and the upper joint part 130 in a bonded state using concrete or mortar used for precast concrete.

5 is a block diagram showing a precast concrete structure bonding apparatus according to a second embodiment of the present invention.

Referring to FIG. 5 , as it relates to the second embodiment of the precast concrete structure bonding apparatus 100 of the present invention, a configuration added to the upper joint portion 130 is presented, and this will be described as follows.

A bonding magnetic body 135 is further provided at the lower portion of the upper expansion head body 134 to maintain a position where it is joined to the lower expansion head body 117 by magnetic force.

That is, the bonding magnetic body 135 is primarily fixed by attachment to the upper enlarged head 134 from the upper part of the lower enlarged head 117 by magnetic force to prevent distortion when the filling material is introduced, thereby reducing construction errors. It can be reduced to improve precision.

6 is a block diagram showing a precast concrete structure bonding apparatus according to a third embodiment of the present invention.

Referring to FIG. 6 , it relates to a third embodiment of the apparatus 100 for bonding a precast concrete structure of the present invention, and in FIG. The added status is as follows.

It is arranged to protrude from the upper part of the lower enlarged head body 117, and when it is joined with the upper enlarged head body 134, it is caught in a state in which the bonding magnetic body 135 is inserted and protrudes in the form of a jaw that maintains the fixed position to be joined. A magnetic locking jaw 118 is further provided.

That is, it is possible to improve the precision by preventing the bonding magnetic body 135 from escaping to the outside by preventing the bonding magnetic body 135 from being caught when the lower extension head body 117 and the upper enlarged head body 134 are magnetically attached. .

7 is a block diagram showing a precast concrete structure bonding apparatus according to a fourth embodiment of the present invention.

Referring to FIG. 7 , it relates to a fourth embodiment of the apparatus 100 for bonding a precast concrete structure of the present invention, and the bonding magnetic body 135 and the lower junction part in a state in which the bonding magnetic body 135 is installed in FIG. 5 . The state in which some structures of (110) are added is as follows.

A magnetic force insertion groove 136 in the form of a groove is provided in the center of the bonding magnetic body 135 .

It is disposed protruding from the center in the downward direction of the upper enlarged head body 134, and is inserted into the magnetic force insertion groove 136 during bonding of the bonding magnetic body 135 to maintain the original position. .

That is, when the upper enlarged head body 134 and the lower enlarged head body 117 are joined, a magnetic obstacle protruding from the top of the upper enlarged head body 134 in the magnetic force insertion groove 136 formed in the center of the bonding magnetic body 135 . As the device 119 is inserted, the upper enlarged head 134 and the lower enlarged head 117 are prevented from deviated from their positions in the attached state by magnetic force, thereby improving precision.

8 is a block diagram showing an apparatus for bonding a precast concrete structure according to a fifth embodiment of the present invention.

Referring to FIG. 8 , it relates to a fifth embodiment of the precast concrete structure bonding apparatus 100 of the present invention, and an embodiment according to the structure in which the upper junction part 130 and the lower junction part 110 are installed will be described below. same as

The filling part 140 is cured by injecting a material to be joined at a plurality of locations where the upper junction part 130 and the lower junction part 110 are joined, and the upper junction part 130 and the lower junction part 110 are in contact and joined When the position to be closed is provided with a lower inlet 112a through which the filling material flows into the lower junction 110, and an upper outlet 132a discharged to the upper junction 130 after the inflow and filling is provided to fill the inside .

9 is a block diagram showing an apparatus for bonding a precast concrete structure according to a sixth embodiment of the present invention.

Referring to FIG. 9 , it relates to a sixth embodiment of the precast concrete structure bonding apparatus 100 of the present invention, and an embodiment according to the structure in which the upper junction part 130 and the lower junction part 110 are installed will be described below. same as

The filling part 140 opens a part at a plurality of positions where the upper junction part 130 and the lower junction part 110 are joined to the outside, and the upper junction part 130 in a state where the spiral part 120 is inserted and fixed in the lower junction part 110 . ) can be provided by filling the filling material in the open position when the joint is installed.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

<Explanation of symbols for main parts of the drawing>
100: joining device 110: lower joint
111: lower junction structure 112: lower junction space
112a: lower inlet 113: lower joint body
114: lower joint through hole 115: spiral support body
116: lower joint reinforcing bar 117: lower expanded head
118: magnetic locking jaw 119: magnetic locking projection
120: spiral part 121: spiral body
122: spiral support 130: upper joint
131: upper junction structure 132: upper junction space
132a: upper outlet 133: upper joint reinforcing bar
134: upper enlarged head 135: bonding magnetic body
136: magnetic force insertion groove 140: filling part

Claims (9)

When precast concrete is assembled, it is supported in a state of being supported so as to surround the outer periphery of the lower junction reinforcing bar, which is a reinforcing bar connected to the inside at a plurality of positions joined to the lower part, and the lower part provided with the upper part of the lower junction reinforcing bar in the form of an enlarged head. copula;
a spiral part protruding from the inside of the lower junction part in an upward direction, provided in a spiral shape and inserted and fixed to support the lower junction reinforcing bar located in the center while buffering the flow on the left and right by elasticity;
an upper junction part disposed on the upper part joined to the lower junction part, having an upper junction reinforcing bar into which the spiral part is inserted in the center, and provided in the form of an enlarged head in the lower part supported in contact with the enlarged head of the lower junction part;
a filling part disposed inside the junction of the lower junction part and the upper junction part, and filling the filling material in order to fix the inside in a state in which the upper junction part is joined after inserting and fixing the spiral part into the lower junction part; and
A bonding magnetic body disposed as a lower surface in the form of an enlarged head of the lower portion of the upper junction and maintaining a position where it is joined with the enlarged head of the upper portion of the lower junction by magnetic force; including,
The lower joint portion is provided with a lower joint body into which the spiral part is inserted into the lower joint space formed in the joint part, and a spiral support body on which the spiral part is supported is provided inside the lower joint body, the center of the lower joint body and a lower junction reinforcing bar provided with a lower enlarged head body at a position in contact with the upper junction part,
The upper junction includes an upper junction reinforcing bar provided with an upper enlarged head body at a position in contact with the lower junction in the inner center of the upper junction space communicating with the lower junction space
Precast concrete structure bonding device.
delete The method of claim 1,
The spiral part,
a spiral body arranged to be inserted into the upper junction in a state where the lower junction is inserted and fixed, and returns to its original position by elasticity when flow occurs in a spiral shape from side to side; and
Containing a; at least one or more vertical and horizontally fixed bar-shaped spiral supports to support the spiral body at positions facing each other inwardly of the spiral body
Precast concrete structure bonding device.
delete delete The method of claim 1,
It is arranged protruding on the upper part in the form of an enlarged head on the upper part of the lower junction part, and when joining the upper junction part, it is caught in the state where the junction magnetic body is inserted and protrudes in the form of a jaw that maintains the position to be joined; more containing
Precast concrete structure bonding device.
The method of claim 1,
A groove-shaped magnetic force insertion groove is provided in the center of the bonding magnetic body,
It is disposed protruding from the center in the downward direction of the enlarged head of the lower portion of the upper junction, and is inserted into the magnetic force insertion groove when the junction magnetic body is joined to maintain the original position; further comprising a
Precast concrete structure bonding device.
The method of claim 1,
The filling part is to perform curing by injecting a material to be joined at a plurality of positions where the upper junction and the lower junction are joined. Having a lower inlet that flows into the , and having an upper outlet that is discharged to the upper junction after filling in and filling the inside
Precast concrete structure bonding device.
The method of claim 1,
The filling part opens a part to the outside at a plurality of positions where the upper junction part and the lower junction part are joined to the outside, and when the upper junction part is jointly installed in a state in which the spiral part is inserted and fixed in the lower junction part, the filling material is filled to the open position. provided
Precast concrete structure bonding device.

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