KR101460454B1 - Connecting Structure of Precast Concrete Assembly Box units - Google Patents

Abstract

The present invention relates to a horizontal connection structure for a prefabricated precast concrete box, and more specifically, to the precast concrete member used to manufacture a prefabricated box. The present invention disperses the sagging force concentrated on specific spots when an upper plate, a lower plate, and a column is connected in the horizontal direction. The present invention also forms connection grooves between adjacent members to integrally connect the adjacent member in the horizontal direction and injects a non-shrink mortar into the connection grooves to form a shear key.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pre-

The present invention relates to a horizontal connection structure of a precast concrete prefabricated box, more particularly, to a precast concrete member for manufacturing a prefabricated box, The sagging is dispersed in the horizontal direction and a connecting groove is formed between the adjacent members so as to integrally connect the members arranged in the lateral direction, and a non-shrinkage mortar is injected into the connecting groove to form a shear key To a lateral connection structure of a precast concrete prefabricated box.

A precast concrete member is a precast concrete that is manufactured in the factory in order to shorten the curing period or to make it difficult to cast concrete using the formwork in the field. Precast concrete members are manufactured as separate assembling members, not in the state of final structure due to the characteristics of manufacturing, transporting and transporting, and they are integrally connected at the site. Wide precast concrete members can be connected horizontally to produce a wide structure .

Generally, when connecting the precast concrete members in the horizontal direction, the tension members are inserted into the holes formed by the adjacent members, and the ends of the precast concrete members are tensed and fixed to secure the connectivity of the respective members.

However, in the conventional method, most of the longitudinal members are tensed at the longitudinal ends of the neighboring members, and in the case of the structure in which the vehicle or the like is passed over, the load is concentrated only in a specific region of the member according to the designated lane, The stability is deteriorated and the difference in height of the connecting portion is generated due to the sagging imbalance between the adjacent members, resulting in poor connectivity.

In the meantime, even when the respective members are installed by the pre-cast assembly method, when the roads are cross-connected perpendicularly to the ends of the girder or the culvert, the widened portion (ridge portion) There is a problem in that the construction period is lengthened because the size and shape of the precast member are varied in many cases.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to prevent stability imbalance when the precast concrete members are connected in the transverse direction.

Further, the present invention aims at securing the horizontal (lateral) connectivity of the precast concrete members and integrating them so that the load concentrated on the local part is distributed to neighboring members.

In addition, the present invention aims to stably connect the wider portion (ridge portion) formed at the end portion of the member to the member by using a precast member.

It is also an object to form a shear key that integrates the entire assembly member for lateral connection of the structure.

According to the present invention, in a precast concrete prefabricated box (1) including a precast concrete upper plate (10), a column (20) and a lower plate (30), two or more continuously arranged precast concrete upper plates Two or more steel pipes 100 communicating with each other in a transverse direction perpendicular to the longitudinal direction between the upper plate 10 and the adjacent upper plate 10 are disposed in the upper plate 10, A groove 18a is formed along a longitudinal direction in a part of the thickness direction of both transverse ends and an injection hole 17 is formed so that the groove 18a communicates with the upper surface of the upper plate 10, The grooves 18a formed between the upper plates 10 that are in contact with each other form connection grooves 18 communicating with each other and the steel plates 100 communicating between the neighboring upper plates 10 In which the steel bar 110 is inserted into the upper plate 10 and two or more upper plates 10 are continuously arranged in the horizontal direction, Is a non-shrink mortar injected into the connection grooves 18 through 17 form a shear key.

According to a preferred aspect of the present invention, when the non-shrinkage mortar is injected into the connection groove 18, the steel pipe 100 is disposed at both ends in the connection groove 18, 100) is injected into the steel pipe (100) through the end portion of the steel pipe (100).

According to a preferred aspect of the present invention, the steel pipe (100) is disposed at the longitudinal center of the upper plate (10).

According to a preferred aspect of the present invention, the steel wires 19 are disposed so as to penetrate the two or more continuously arranged precast concrete upper plates 10 in the transverse direction continuously, and both ends of the steel wires 19 are fixed .

According to a preferred aspect of the present invention, at least one of the two or more continuously disposed precast concrete upper plates 10 is provided with the fixing end 14 at both ends in the longitudinal direction, and the fixing end The tension member 50 is disposed between the upper plate 10 and the upper plate 10 so that the tension member 50 is tensioned and fixed to the fixing end portion 14 to fix the upper plate 10 to the precast concrete upper plate 10 Thereby introducing a tension force.

According to a preferred aspect of the present invention, the column and the lower plates 20 and 30 are continuously arranged in the lateral direction, and the column and the lower plates 20 and 30 are provided with adjacent columns and lower plates 20 and 30, And two or more steel pipes 100 communicating with each other in the longitudinal direction perpendicular to the longitudinal direction are spaced apart from each other in the longitudinal direction of the column and the lower plates 20 and 30, The grooves 28a and 38a are formed and the injection holes 27 and 37 are formed so that the grooves 28a and 38a are communicated with the outer surface of the column 20 or the upper surface of the lower plate 30, Two or more columns and lower plates 20 and 30 are continuously arranged so that the grooves 28a and 38a formed between the pillar and lower plates 20 and 30 that are in contact with each other form communicating groove 28 and 38, The steel bar 110 is inserted into the steel pipe 100 communicated between the lower and upper plates 20 and 30 and the column and the lower plates 20 and 30 are continuously arranged in the lateral direction This non-contraction state mortar into the connecting groove (28, 38) through said injection holes (27, 37) is implanted.

According to a preferred aspect of the present invention, a transverse connection structure of an outermost upper plate 10a of a top plate 10 constituting a precast concrete prefabricated box 1 and a precast concrete wider section 200 in contact with the uppermost plate 10a, The outer upper plate 10a is formed with a concave portion 180 at a longitudinal end portion thereof in contact with the wider portion 200 and a groove 18a is formed in a part of the thickness along the concave portion 180, The widened portion 200 is provided with a protrusion 201 corresponding to the recess 180 and a protrusion 210 corresponding to the protrusion 201. [ A longitudinal direction end portion 202 having a width larger than the width of the outer upper plate 10a and an inclined portion 203 disposed between the projecting portion 201 and the end portion 202 in a state in which one side is inclined, A groove 181 having a shape corresponding to the groove 18a formed in the concave portion 180 is provided, When the outermost upper plate 10a and the wider portion 200 are disposed so as to be in contact with each other, the outermost upper plate 10a is provided with injection holes 170 and 270, And a steel pipe 210 communicating with the wider portion 200. The steel bar 220 is inserted into the communicated steel pipe 210. The steel pipe 220 is inserted into the uppermost upper plate 10a and the wider portion 200, Shaped connecting grooves 80 are formed in the connecting grooves 181 and 280 so that no shrinkage mortar is injected into the connecting grooves 80 through the injection holes 170 and 270 to form shear keys.

According to a preferred aspect of the present invention, when the non-shrinkage mortar is injected into the connection groove 80, the open end of the steel pipe (210) 210 to the inside of the steel pipe 210.

In the connection structure of the precast flexural members of the present invention, the stability of the entire structure is improved because the deflection is distributed by connecting the adjacent members in the lateral direction.

Further, in the present invention, the horizontal connectivity between the precast concrete members is ensured.

Further, in the present invention, since the wider portion can be manufactured from a precast member and assembled to the precast member, it is advantageous in that it is easy to construct.

1 is a schematic perspective view showing an embodiment in which a precast concrete upper plate, a lower plate, and a column of the present invention are vertically coupled to form a prefabricated box.
FIG. 2 is a plan view schematically showing a structure in which two or more precast concrete upper plate members and a precast concrete wider portion are connected to each other according to the present invention.
3 is a schematic plan view showing a state in which the precast concrete top plate member of Fig. 2 is separated into a single member; Fig.
4 is a schematic vertical sectional view showing the internal structure of the precast concrete top plate member according to the line AA of FIG.
5 is a plan view schematically showing a state where two or more precast concrete lower plate members are connected according to the present invention.
6 is a plan view schematically showing a state where two or more precast concrete column members are connected according to the present invention.
7 is a schematic plan view showing a structure in which a precast concrete upper plate member and a precast concrete wideness member of the present invention are assembled with each other.
FIG. 8 is a schematic plan view showing the structure of FIG. 7 in a disassembled state. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a schematic perspective view showing an embodiment in which a precast concrete upper plate, a lower plate, and a column of the present invention are vertically coupled to form a prefabricated box. As shown in the drawings, the present invention relates to a structure for vertically coupling precast concrete members to form a prefabricated box (culvert). Hereinafter, with reference to the drawings, the respective members are integrated in a width direction (horizontal direction, The connection structure between the adjacent members will be described. Further, although not shown, when the water flows to the lower end of the spout of the prefabricated box, the spout can be used as a waterway or a bridge like a culvert, and the lower end of the spout can be installed in the form of the prefabricated box.

2 is a plan view schematically showing a structure in which two or more precast concrete upper plate members 10 and a precast concrete widened portion 200 are connected to each other according to the present invention. Fig. 4 is a schematic vertical sectional view showing the internal structure of the precast concrete upper plate 10 member according to the line AA of Fig. 3, and Fig. 4 is a schematic vertical sectional view showing the inner structure of the precast concrete upper plate 10 member according to the line AA of Fig. .

1, the widened portion 200 is connected to a plurality of upper plates 10 adjacent to each other in the transverse direction and an outer edge of the upper plate 10. The adjacent upper plate 10 has a longitudinal direction The steel wires 19 are arranged so as to penetrate continuously in a direction (horizontal direction, transverse direction) perpendicular to the longitudinal direction of the steel sheet 19 and both ends of the steel wire 19 are fixed. 3, the pre-cast concrete member is formed with fixing ends 15 at both ends in the longitudinal direction thereof, and a sheath pipe is formed in a state of being embedded . At this time, the upper plate 10 is inserted into the upper plate 10 so that the steel wire 40 can be inserted to assure the integrity of the post 20 after assembling the lower plate 30 and the other precast concrete members disposed at the lower end of the upper plate 10. [ An insertion hole 16 may be formed on the upper surface of the horizontal portion 11 which is a plate-shaped main body of the upper plate 10 so that the fixing end 14 is formed at the upper end of the upper plate 10 and a sheath pipe (not shown) may be embedded.

A fixing end 15 is formed at both ends of the upper plate 10 and a tension member 50 is disposed therebetween so that the tension member 50 is tensioned and settled after the upper plate 10 is mounted at an installation position. Thereby introducing a tensile force to the precast concrete upper plate 10. It is possible to reduce deflection occurring in the upper plate 10 through the introduction of the tension force.

As shown in FIGS. 2 to 4, the upper plate 10 is formed with grooves 18a along the longitudinal direction in a part of the side surface of the transversely opposite end portions in the longitudinal direction perpendicular to the longitudinal direction, And an injection hole 17 formed so that the upper surface of the horizontal plate 11 is communicated. The grooves 18a form a space of the connection groove 18 communicating only with the upper surface of the horizontal plate through the injection hole 17 in a state of being in contact with the neighboring upper plate 10. As described later, Shrinkage mortar to be injected through the upper plate 10 and connects the side surfaces between the adjacent upper plates 10 and forms a shear key.

A communication hole 19a is formed in the transverse direction of the upper plate 10 so as to communicate with the adjacent upper plate 10 so that the connection line 19a is inserted with the steel wire 19, . The steel wire 19 passing through the connection groove 18 for receiving the non-shrinkage mortar is fixed in position as the non-shrinkage mortar accommodated in the connection groove 18 is cured, thereby improving the stability.

In this case, the load of the vehicle or the like is moved in the longitudinal direction of the upper plate 10, and when the vehicle is brought into contact with the ground portion where the vehicle comes into contact with the slab, that is, The portion is confined to a specific region, and load is repeatedly applied to this region, so that the load and deflection are concentrated, so that deflection imbalance with other regions often occurs. This deflection imbalance not only causes a deflection imbalance within the upper plate 10, which is a single flexure member, but also causes deflection imbalance with the neighboring upper plate 10, thereby deteriorating the connection, thereby deteriorating the deflection and the dispersion of the load and hence the structural stability have. In the present invention, the steel pipe 100 is disposed so as to communicate between the upper plates 10 in order to distribute deflection while introducing rigidity between the upper plate 10 and the adjacent upper plate 10 in the longitudinal central portion of the upper plate 10 where deflection is maximized , The steel rod 110 is inserted into the steel pipe 100 and then the outside of the steel rod 110 passing through the connection groove 18 in which the non-shrinkage mortar is received is fixed. At this time, the installation position of the steel pipe 100 is not limited to the longitudinal center portion of the upper plate 10). Specifically, when the non-shrinkage mortar is injected into the connecting groove 18, the end of the steel pipe 100 is positioned in the open state in the connecting groove 18, The non-shrinkage mortar moves to the inside of the steel pipe 100 to fill a space between the steel pipe 100 and the steel bar 110 inserted therein.

3 and 4, the upper plate 10 includes a horizontal portion 11, which is a plate-shaped body, and an insertion hole communicating with the lower structure is formed for connection with the lower structure, or a sheath tube And the upper end of the upper surface of the horizontal portion 11 may have a fixing end portion 14 formed thereon. A tension member 40, a steel wire, or the like may be disposed in the insertion hole 16 or the sheath pipe to allow vertical coupling with the lower structure.

7 is a schematic plan view showing a structure in which the precast concrete upper plate 10 of the present invention and the precast concrete widened portion 200 are assembled together. FIG. 8 shows a state in which the structure of FIG. A schematic top view is shown.

The illustrated embodiment relates to a connection structure in which a precast concrete outermost upper plate 10a disposed at the outermost lateral side and a precast concrete widened portion 200 connected thereto are assembled. As shown in Fig. 7, the top plate 10a disposed at the outermost portion is formed with a concave portion 180 of "a" at the longitudinal end portion corresponding to the outermost lateral side to form a step. A groove 181 is formed in a part of a thickness direction along the concave portion 180 and is formed in a state of being in contact with a groove 280 formed at a corresponding position of the precast concrete wider portion 200 as described later, (Not shown). Horizontal joints 120 and 240 are provided in the longitudinal direction of the outermost upper plate 10a at a position corresponding to the step of the concave portion 180 and are mutually coupled. The horizontal connectors 120 and 240 may be formed of a sleeve 240 formed on the concave portion 180 and a rod 120 formed on the wider portion 200 or a socket 240 formed on the concave portion 180, And the spigot 120 formed on the side of the wider portion 200 may be used and another form capable of connecting the outermost upper plate 10a and the wider portion 200 in the longitudinal direction may be used, Do.

The pre-cast concrete widening section 200 is connected to the outermost precast concrete upper plate 10a at the site after being manufactured in a factory, unlike the case where the pre-cast concrete widening section 200 is generally installed in the field. The wider portion 200 includes a protrusion 201 corresponding to the concave portion 180 and an end portion 202 that is wider than the width of the concave portion 180 and a widened portion 202, (203), and has a fixing end (230) for connection with the lower structure, an insertion hole or a sheath tube. A steel pipe 210 is formed in the transverse direction of the wider portion 200 to communicate with a neighboring outermost upper plate 10a and a steel wire 220 is inserted into the steel pipe 210, And the widened portion 200 can be secured and the above-described effect can be enjoyed.

In the wider portion 200, a "?" Groove 280 is formed in a part of the protrusion 201 corresponding to the concave portion 180 of the outermost upper plate 10a in the thickness direction, Quot; I " connecting groove 80 in a state of being in contact with the connecting portion 10a. The connection groove 80 is communicated with the injection holes 170 and 270 exposed upward and is injected and fixed through the injection holes 170 and 270 so that the outermost upper plate 10a and the wider portion 200, and securing the connectivity.

FIG. 5 is a plan view schematically showing a state where two or more precast concrete lower plates 30 are connected according to the present invention, and FIG. 6 is a plan view schematically showing a state where two or more precast concrete columns 20 A plan view schematically showing a state in which interconnections are connected. The lower plate (30) constitutes the lower part of the structure and is mounted on the bottom of the space in which the prefabricated box (1) is to be formed. The lower plate 30 has a horizontal portion 31 as a vertical plate and the lower ends of the columns 20 are axially connected at both ends in the longitudinal direction of the horizontal portion 31.

The lower plate 30 is formed with a communication hole 39a (see FIG. 1) communicating between the adjacent lower plates 30 for connection with the adjacent lower plate 30, and a sheath tube (not shown) May be disposed. The lower plates 30 are arranged so as to be in contact with each other in the transverse direction and then the steel plates 39 are inserted into the communication holes 39a or the sheath pipe and the prestressing force is introduced, As shown in FIG.

A column 20 is disposed on both sides in the longitudinal direction of the lower plate 30. The column 20 serves as an alternate central portion and the lower end of the column 20 is connected to both ends And is a vertical plate 21 disposed on the upper surface. A bracket (not shown) may protrude from the top of the column 20, and the top plate 10 is mounted on the top of the column 20.

A plurality of columns 20 are horizontally connected along the width direction of the column 20 and communicating holes 30 are formed in the column 20 for horizontally connecting the columns 20 to each other. And a sheath pipe (not shown), and the pillars 20 can be connected by inserting the steel wire 29 into the communication hole 29a or the sheath pipe and tightening it.

As shown in FIGS. 7 and 8, the transverse connection structure of the upper plate 10 described above can be applied to the lower plate 30 and the column 20 as well. As shown in the drawing, a steel pipe 100 and a steel wire 110, which communicate with the column 20 and a member adjacent to the lower plate 30, may be disposed. The lower plate 30 is formed with a groove 38a corresponding to the upper plate 10 and a connecting groove 38 and an injection hole 37. The lower plate 30 is formed with a through- No shrinkage mortar can be injected into the end.

The column 20 is formed with grooves 28a in the thickness direction on the surfaces contacting with the adjacent columns 20 to form connection grooves 28 between adjacent columns 20, And an outer end surface of the column 20 are communicated with each other by an injection hole 27. A non-shrinkage mortar is injected into the injection hole 27 to form a shear key. At this time, the injection hole 27 of the column 20 is preferably formed at the upper end in the height direction of the connection groove 28 so that injection of the non-shrinkage mortar is facilitated, and more than two injection holes 27 may be provided in the vertical direction. Of course. The end of the open steel pipe 100 is disposed in the connection grooves 28 and 38 formed in the column 20 and the lower plate 30 so that the steel pipe 100 is opened, The non-shrinkage mortar moves to the inside.

1 Prefabricated box 10 Top plate 10a Outermost top plate 11 Horizontal part
14, 15 Fixing end 16 Insertion hole 17 Injection hole 18 Connection groove
18a groove 19 steel wire 19a communication hole 20 column 21 straight plate
27 injection hole 28 connection groove 28a groove 29 steel wire 29a communication hole
30 lower plate 31 horizontal portion 37 injection hole 38 connecting groove 38a groove
39 steel wire 39a communication hole 40 steel bar 50 tension member 80 connection groove
100 steel pipe 110 steel rod 120 horizontal connection hole 170 injection hole
180 concave portion 181 groove 200 widened portion 201 protrusion
202 end portion 203 inclined portion 210 steel pipe 220 steel bar
230 Fixing end 240 Horizontal connection 270 Inlet hole 280 Home

Claims (8)

A transverse connection structure of a precast concrete upper plate (10) in which two or more continuously arranged precast concrete prefabricated boxes (1) including a precast concrete upper plate (10), columns (20)
The upper plate 10 is provided with two or more steel pipes 100 communicating with a neighboring upper plate 10 in a transverse direction perpendicular to the longitudinal direction, A groove 18a is formed along a longitudinal direction in a part of a thickness direction of the end portion and an injection hole 17 is formed so that the groove 18a communicates with the upper surface of the upper plate 10,
Two or more of the upper plates 10 are continuously arranged so that the groove 18a formed between the upper plates 10 in contact with each other forms a communicating groove 18 and a steel pipe 100, the steel rod 110 is inserted,
A lateral connection of a precast concrete prefabricated box in which no shrinkage mortar is injected into the connection groove 18 through the injection hole 17 to form a shear key in a state where two or more upper plates 10 are continuously arranged in the transverse direction, rescue. The method according to claim 1,
When the shrink-proof mortar is injected into the connection groove 18, both ends of the steel pipe 100 are opened in the connection groove 18, And a non-shrinkage mortar is injected into the interior of the prefabricated concrete assembly box (100).
The method according to claim 1,
Wherein the steel pipe (100) is disposed in the longitudinal center of the upper plate (10).
The method according to claim 1,
Wherein a steel wire (19) is disposed so as to penetrate the two or more continuously arranged precast concrete upper plates (10) in a transverse direction, and both ends of the steel wire (19) are fixed. Lt; / RTI >
The method according to claim 1,
The upper plate 10 of any one of the two or more continuous precast concrete upper plates 10 is provided with a fixing end portion 14 at both ends in the longitudinal direction and a tension member 50 is interposed between the fixing end portions 14, Wherein the tension member is tensioned after the upper plate is mounted at the installation position and is fixed to the fixing end so as to introduce a tension force to the precast concrete upper plate. Lateral connection structure of precast concrete prefabricated box.
The method according to claim 1,
Wherein at least two of the column and lower plates (20, 30) are continuously arranged in the lateral direction,
Two or more steel pipes 100 communicating with each other in the transverse direction perpendicular to the longitudinal direction are disposed between the adjacent columns and the lower plates 20 and 30 in the column and the lower plates 20 and 30, Grooves 28a and 38a are formed along a longitudinal direction in a part of the transversely opposite ends of the lower plates 20 and 30 along the longitudinal direction and the grooves 28a and 38a and the outer surface of the column 20, (27, 37) formed so as to communicate with the upper surface of the substrate (30)
Two or more of the column and lower plates 20 and 30 are continuously arranged to form the connecting grooves 28 and 38 communicating with the grooves 28a and 38a formed between the lower and upper plates 20 and 30, The steel rod 110 is inserted into the steel pipe 100 communicated between the adjacent pillars and the lower plates 20 and 30,
Shrink mortar is injected into the connecting grooves 28 and 38 through the injection holes 27 and 37 in a state where two or more columns and lower plates 20 and 30 are continuously arranged in the transverse direction, Lateral connection structure of cast concrete box.
A transverse connection structure of an outermost upper plate (10a) of a top plate (10) constituting a precast concrete prefabricated box (1) and a precast concrete widened portion (200)
The outermost upper plate 10a has a recess 180 formed at the longitudinal end thereof in contact with the wider portion 200 and a groove 18a is formed in the thickness direction along the recess 180 And an injection hole 170 formed to communicate the groove 18a and the upper surface of the upper plate 10,
The wider portion 200 includes a protrusion 201 corresponding to the recess 180 and a longitudinal end portion 202 having a width wider than the width of the outermost upper plate 10a, A groove 181 having a shape corresponding to the groove 18a formed in the concave portion 180 and having an inclined portion 203 disposed between the protrusion 201 and the end portion 202, (170, 270) formed so as to communicate with the upper surface of the outermost upper plate (10a)
When the outermost upper plate 10a and the wider portion 200 are disposed to be in contact with each other, a steel pipe 210 communicating with the outermost upper plate 10a and the wider portion 200 is provided, And the grooves 181 and 280 formed in the outermost upper plate 10a and the wider portion 200 respectively form a communicating "? &Quot; connecting groove 80, Wherein a non-shrinkage mortar is injected into the connection groove (80) through the injection holes (170, 270) to form a shear key.
8. The method of claim 7,
When the non-shrinkage mortar is injected into the connection groove 80, both ends of the steel pipe 210 are opened in the connection groove 80. When the shrinkage mortar is injected into the connection groove 80, And a non-shrinkage mortar is injected into the interior of the pre-cast concrete assembly box (210).

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