KR101495729B1 - Connecting Structure of Precast Concrete Assembly Box - Google Patents

Abstract

The present invention relates to a connection structure for a prefabricated precast concrete box. More specifically, the precast concrete member is used to form a prefabricated box. The upper and lower plates have the identical form to be used interchangeably and include a vertical unit for the dynamics. The upper and lower plates are connected in the vertical direction by linking to a column and inserting a steel rod. A steel pipe and steel rod are arranged to disperse the bending load of the flexible upper plate. A connection groove is formed between adjacent members to form a front key and a non-shrink mortar is injected to connect the members in the horizontal direction.

Description

Connecting Structure of Precast Concrete Assembly Box [

The present invention relates to a connection structure of a precast concrete prefabricated box, more particularly, to a precast concrete member for manufacturing a prefabricated box, in which a top plate and a bottom plate have the same shape and can be used interchangeably, A steel pipe and a steel bar are disposed so as to connect the upper and lower plates having the vertical portion and the column to connect the steel rods in the vertical direction and to distribute the deflection of the upper plate as the bending member in the horizontal direction, And a connection structure of a prefabricated box connected in a horizontal direction by injecting a non-shrinkable mortar so as to form a connection groove for forming a shear key.

Precast concrete members are manufactured in the factory in order to shorten the curing period or difficult to pour the concrete using the formwork in the field. Due to the nature of manufacturing, transportation and transportation, Most of them are connected.

At this time, the connection portions between the individual assembling members become vulnerable to external stress. In order to secure the integral connection between the plural number of members, integration work using tension and steel rods using a tension member is performed.

Generally, such precast concrete members are manufactured by dividing them due to transportation problems, and they are installed in the field in a unified manner. However, in the conventional dividing methods, since each divided part can not be used in a compatible manner, each divided part has to be separately manufactured and transferred.

In addition, the precast concrete member is less susceptible to stress and torsion at the connection portion between the horizontal member and the vertical member than the cast-in-place concrete integrally formed. In particular, when the box-like structure such as a culvert is manufactured, The connection between the pillars becomes weak.

Particularly, when the upper plate receives a load, sagging occurs at both ends in the longitudinal direction of the upper plate, so that the connection with the column as the compression member can not be ensured.

In addition, the sag generated in the upper plate may occur only in a specific area of the upper plate in the width direction. For example, when the slab is provided on the upper plate and used as a road, The load of the vehicle or the like is shifted and the ground portion where the vehicle contacts with the slab, that is, the portion where the wheel touches, is confined to a specific region. Since the load acts repeatedly on the load region and the deflection is concentrated, There are many cases where an imbalance occurs. This deflection imbalance can cause deflection imbalance within the single top plate as well as deflection imbalance between the neighboring top plates, thereby impairing the horizontal connection and thereby impair deflection and load distribution and thus structural stability.

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 manufacture a prefabricated box by connecting precast concrete members.

Further, the present invention has an object to provide an integrated connection of members without requiring a high degree of operation in accordance with a proper positioning between the members.

Further, the present invention aims to improve the stability and durability of a structure by allowing connection and positioning with respect to an adjacent member, and integration.

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

It is also intended to make the divided parts compatible with each other.

The connection structure of the precast concrete prefabricated box according to the present invention comprises:

The upper plate 10 includes a plate-shaped horizontal portion 11 and vertical portions 12 extending in a longitudinally bent shape at both longitudinal ends of the horizontal portion 11, A fixing end 14 formed by exposing the upper end of the insertion hole 16 to the upper surface of the horizontal portion 11 is formed And,

The column 20 includes a bracket 22 protruding outward at an upper end thereof and a step 23 corresponding to a vertical portion 12 of the upper plate 10 inside the bracket 22, And an insertion hole 26 communicating with the upper plate 10 and the lower plate 30,

The lower plate 30 includes a plate-shaped horizontal part 31 and a vertical part 32 extending in a longitudinally bent shape at both ends in the longitudinal direction of the horizontal part 31, An insert hole 36 communicating with the column 20 and the upper plate 10 is formed,

The steel wire 40 is inserted into the insertion holes 16, 26 and 36 communicating with the upper plate 10, the column 20 and the lower plate 30, and both ends are fixed.

According to another preferred feature of the present invention, the lower plate 30 has a plate-like fixing portion 34 at the lower end of the insertion hole 16, a nut projecting upwardly from the fixing portion 34, The upper end of the nut 35 is connected to the lower end of the insertion hole 16 and the lower end of the steel wire 40 is formed with a bolt portion 40a having a screw thread on the outer surface thereof , And the nut portion (35).

According to another preferred feature of the present invention, the non-shrinkage mortar is injected into the insertion hole 16 into which the steel wire 40 is inserted.

According to another preferred feature of the present invention, two or more of the upper plates 10 are arranged in a transverse direction, and the upper plate 10 is provided with a plurality of upper plates 10, A groove 18a is formed along a longitudinal direction in a part of a thickness direction of both lateral ends of the upper plate 10 and a groove 18a is formed in the groove 18a, The upper plate 10 is provided with two or more continuous grooves 18a formed between the upper plates 10. The grooves 18a formed between the upper plates 10 are in contact with each other, The steel bar 110 is inserted into the steel pipe 100 communicated between the neighboring upper plates 10 and the upper plate 10 is inserted into the injection hole 17 into the connecting groove 18 to form a shear key.

According to another preferred feature of the present invention, two or more of the upper plate, the lower plate, and the columns 10, 30 and 20 are continuously arranged in the lateral direction, and the upper plate, the lower plate, Two or more steel pipes 100 communicating with each other in the transverse direction perpendicular to the longitudinal direction are disposed between the upper and lower plates 10 and 30 and the upper and lower plates 10 and 30 The grooves 18a, 38a and 28a are formed along a longitudinal direction in a part of the thickness direction of both transverse ends of the upper and lower plates 10 and 30, The upper plate, the lower plate, and the columns 10, 30, and 20 are continuously arranged so that the upper plate, the lower plate, and the columns 10, The grooves 18a, 38a, 28a formed between the lower plate and the columns 10, 30, 20 form communicating grooves 18, 38, 28 and the adjacent upper plate, lower plate, ) The steel rods 110 are inserted into the holes 100 through the injection holes 17, 37 and 27 while two or more upper and lower plates 10, 30, Shrinkage mortar is injected into the connecting grooves 18, 38, 28 to form a shear key.

According to another preferred feature of the present invention, the steel pipe 100 is disposed at the longitudinal center of the upper plate, the lower plate, and the columns 10, 30, and 20.

According to another preferred feature of the present invention, both ends of the upper plate, the lower plate, and the pillar 10, 30, and 20 are opened in the connecting grooves 18, 38, Shrinkage mortar is injected into the steel pipe 100 through the open end of the steel pipe 100 when the shrinkage mortar is injected into the steel pipe 100,

According to another preferred feature of the present invention, the tension members (19, 39, 29) are arranged so as to penetrate the two or more continuously arranged precast concrete upper plates, the lower plates and the columns (10, 30, 20) , And the tension members 19, 39, and 29 are fixed.

According to another preferred feature of the present invention, at least one of the two or more continuous precast concrete upper plates 10 is provided with a fixing end 14 at both ends in the longitudinal direction, A tension member 50 is disposed between the top plate 10 and the fixing plate 14 to fix the tension member 50 to the fixing end 14 after the top plate 10 is mounted at the mounting position, Lt; / RTI >

In the prefabricated box of the present invention, when the prefabricated concrete member is connected to manufacture a prefabricated box, the upper and lower plates can be used interchangeably, and the two posts can be used interchangeably. .

In addition, the assembled box of the present invention can reduce the occurrence of moments and stresses at the connection portion, thereby improving the stability of the entire structure.

In addition, in the present invention, in the step of determining the connecting position and the mounting position between the respective members, integration is carried out through insertion of a steel bar or tension of a tension member after the connection of the members without the projecting key or the key groove. Therefore, the high- .

Further, in the present invention, the assembled structure can be connected to the adjacent member, can be positioned and integrated, and the stability and durability of the structure can be improved.

In addition, it is possible to integrate the respective members at the same time while forming the shear key for the longitudinal connection of the precast concrete members.

1 is a schematic perspective view showing a precast concrete prefabricated box according to a first embodiment of the present invention.
2 is a schematic exploded perspective view showing a state where the precast concrete prefabricated box of the first embodiment of FIG. 1 is assembled into a top plate, a column, and a bottom plate.
3 is a schematic cross-sectional view showing a vertically connecting structure of a precast concrete prefabricated box according to a second embodiment of the present invention.
4 is an enlarged sectional view of a vertically connecting structure of a precast concrete prefabricated box according to a second embodiment of the present invention.
5 is an enlarged cross-sectional view showing the connection structure between the top plate and the column in FIG.
6 is a schematic plan view showing a lateral connection structure of a precast concrete prefabricated box top plate according to a third embodiment of the present invention.
7 is a schematic plan view showing a lateral connection structure of a precast concrete prefabricated box bottom plate according to a third embodiment of the present invention.
8 is a schematic plan view showing a lateral connection structure of a precast concrete prefabricated box column according to a third embodiment of the present invention.
FIG. 9 is a schematic plan view showing a single top plate structure of the precast concrete prefabricated box of FIG. 6; FIG.
10 is a schematic longitudinal sectional view showing the internal structure of the precast concrete top plate member according to the line AA of FIG.
11 is a schematic plan view showing a structure in which a precast concrete upper plate member and a precast concrete wideness member are assembled together according to a third embodiment of the present invention.
12 is a schematic plan view showing a state where the precast concrete upper plate member and the precast concrete widening member of FIG. 11 are disassembled.

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 a precast concrete prefabricated box 1 according to a first embodiment of the present invention. FIG. 2 is a perspective view showing a precast prefabricated prefabricated box of the first embodiment of FIG. 1, And FIG. 6 is a schematic exploded perspective view showing a state where the lower plate is assembled.

The prefabricated box 1 of the present invention is manufactured by integrally connecting an upper plate 10, a column 20 and a lower plate 30 constituted of precast concrete. The upper plate 10 and the lower plate 30 correspond to each other And the width of the column 20 is preferably equal to the length of the upper plate 10 and the lower plate 20 extended in the transverse direction by two, respectively. Further, although not shown, when the water flows to the bottom end of the prefabricated box 1, the prefabricated part can be used as a waterway or a bridge like a culvert, and the lower end of the preformed part is also installed in the form of the prefabricated box .

Concretely, the upper plate 10, the column 20, and the lower plate 30, which are constituent members of the assembled box 1 of the present invention, are all precast concrete members. 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 is provided with a vertical portion 32 in which both ends in the longitudinal direction of the horizontal portion 31 are bent upward so that the lower plate 30 and the lower ends of the columns 20 Axis direction. At this time, the vertical section 32 is designed to have the same cross section as the cross section of the column 20, and the vertical section 32 and the column 20 are connected to each other to serve as a bridge.

The lower plate 30 is formed with a communication hole 39a (see FIG. 3) communicating between the adjacent lower plates 30 in the transverse direction for connection with the adjacent lower plate 30, and a sheath tube 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 prestressing force is introduced by inserting the tension members 39 in the communication holes 39a or the sheath tube, As shown in FIG.

An insertion hole 36 is formed in the end of the lower plate 30 on which the vertical part 32 is formed so that the lower plate 30 and the vertical part 32 are simultaneously passed through in the axial direction in which the vertical part 32 is formed After the upper plate 10, the column 20 and the lower plate 30 are mounted as described later, the steel wire 40 is inserted and fixed in the insertion hole 36 provided to connect the respective members to each other, Can be secured.

A column 20 is disposed on the upper surface of the vertical portion 32 of the lower plate 30. The column 20 serves as an alternate central portion and a lower end portion of the column 20 is connected to a vertical portion (21) having the same cross-sectional shape as that of the vertical plate (32). A bracket 22 is protruded from the upper part of the column 20 and a step 23 is formed inside the bracket 22. The step 23 is formed in the cross section of the vertical plate 21 That is, the shape and the position of the vertical portion 32, to secure the connection integrity with the top plate 10 as described later.

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. (Not shown) and a sheath tube (not shown), and the pillars 20 can be connected by inserting the straining material 29 into the communication hole 27 or the sheath tube and tightening it.

The column 20 is provided with an insertion hole 26 communicating with the vertical portion 32 of the lower plate 30 and the lower plate 30 as described above, The steel wire 40 is inserted into the wire 26 to connect the respective members in the vertical direction.

The upper plate 10 may be formed in the same shape as the lower plate 30 by the same die, and is arranged to face the lower plate 30. The vertical part 12 is formed so that both ends of the vertical part 11 in the longitudinal direction of the vertical part 11 are bent upward and are directed downwardly to the upper plate 10, The vertical portion 32 of the lower plate 30, the column 20 and the vertical portion 12 of the upper plate 10 are positioned in a straight line so as to be mounted on the step 23 of the column 20.

The upper plate 10 is also formed with a communication hole 19a or a sheath pipe (not shown) communicating with the transversely adjacent upper plate 10 like the lower plate 30, The upper plates 10 can be connected to each other in the horizontal direction by introducing the prestressing force by inserting the tension members 19 into the communication holes 19a and the sheath pipe have.

The horizontal portion 11 and the vertical portion 12 of the upper plate 10 are connected to the end portion of the upper plate 10 on which the vertical portion 12 is formed, 16 are integrally tightened by the steel wire 40 in the insertion hole 16 communicating with the upper plate 10, the column 20 and the lower plate 30 as described above to ensure vertical integrity It acts as a shift.

When the step 23 formed on the column 20 and the vertical part 12 of the upper plate 10 are brought into contact with each other in the present invention, a moment is generated in the vertical part 12 by an external force applied to the upper plate 10 The step 23 of the column 20 and the bracket 22 formed integrally therewith first support the bracket 22 and support the bracket 22 so that the bracket 22 contacts the outer surface of the vertical portion 12 It is possible to secure the connection between the upper plate 10 and the column 20 because the moment can be secondarily supported and the rotation of the structure and the local destruction due to the moment can be prevented.

3 is a schematic cross-sectional view showing a vertical connection structure of a precast concrete prefabricated box 1 according to a second embodiment of the present invention, and Figs. 4 and 5 show a second embodiment of the present invention Sectional view of the vertical connection structure of the precast concrete prefabricated box 1 according to the first embodiment of the present invention.

3, since the upper plate 10 of the prefabricated box 1 according to the present invention is able to withstand an external load with respect to the upper surface thereof, the upper plate 10 can move in the longitudinal direction (longitudinal direction) And a tension member 50 passing through between the fixing end portions 15 is arranged and then tightened and fixed to reduce sag according to the flexural behavior.

As shown in the drawing, the upper plate 10, the lower plate 30, the tension members 19, 29 and 39 for horizontal connection of the columns 20, the upper plate 10 and the columns 20, A steel wire 40 for integrating the lower plate 30 in the vertical direction and a tensile material 50 used for introducing a tensile force for reducing the stress from the load on the upper surface of the upper plate 10 are all introduced with a tension force in a post tension manner can do. The tension members 19, 29, 39 and 50 and the both ends of the steel wire 40 are fixed to the fixing end using fixing anchors or nuts or the other end is fixed with a nut after tension in a state where one end is fixed in advance Can be used.

4, the upper plate 10, the columns 20, and the vertical portions 32 of the lower plate 30 are disposed at positions corresponding to each other, The steel wire 40 is disposed in the insertion holes 16, 26, 36 formed so as to communicate with the column 20, the lower plate 30, When the steel wire 40 is disposed in the communicating insertion holes 16, 26 and 36, the steel wire 40 acts as a guide to arrange the vertical portions 12 and 32 and the column 20 in a straight line .

An example of the connection structure between the lower plate 30 and the column 20 will be described with reference to FIG. The vertical plate 32 of the lower plate 30 is provided with a plate-shaped fixing portion 34 at the end of the inserted insertion hole 36 and a nut projecting from the upper portion of the fixing portion 34, And the upper end of the nut portion 35 is communicated with the insertion hole 36. In addition, The steel wire 40 is inserted into the insertion hole 16 communicated through the fixing end portion 14 formed on the upper surface of the upper plate 10 so as to pass through the insertion hole 26 of the column 20, The end portion of the steel wire 40 is positioned on the nut portion 35 connected to the insertion hole 36 of the wire 30. At the end of the steel wire 40 is formed a bolt portion 40a having a screw thread corresponding to the thread provided on the inner surface of the nut portion 35. The bolt portion 40a is formed at the fixing end portion 14 of the upper plate 10, The lower end of the steel wire 40 can be screwed with the nut 35 by rotating the upper end of the steel wire 40. 5, the upper end of the steel wire 40 can be fixed to the fixing end portion 14 of the upper plate 10 by anchor coupling or post-tension fixing, and the insertion holes 16, 26, 36 and the steel wire 40 can be fixed by fixing the position of the steel wire 40 by injecting grout. The sheath tube (not shown) communicating with the lower plate 30 and the column 20 is filled in place of the insertion holes 26 and 36. In place of the steel wires 40, A method in which a tension member is disposed and both ends are fixed or one end is fixed by an anchor and the other end is fixed.

As described above, the precast concrete prefabricated box 1 of the present invention includes the upper plate 10 and the lower plate 30 having the vertical portions 12 and 32 as the precast concrete members, the bracket 22 and the step 23 at the upper end, The column 20 as the vertical plate 21 is made to correspond to the position of the step 23 with the vertical portion 12 of the upper plate 10 and the steel wire 40 So that they can be vertically coupled with each other in a fixed position.

6 is a schematic plan view showing the lateral connection structure of the top plate 10 of the precast concrete prefabricated box 1 according to the third embodiment of the present invention, and FIG. 9 is a schematic plan view of the precast concrete prefabricated box 10 is a schematic plan view showing the structure of the single top plate 10 of the pre-cast concrete top plate 10 according to the embodiment of the present invention. Fig. 10 is a schematic vertical sectional view showing the internal structure of the precast concrete top plate 10 member according to the line AA in Fig.

In the precast concrete prefabricated box 1 of the present invention, two or more members may be connected in the lateral direction (horizontal direction). Hereinafter, the lateral connection of the upper plate 10 will be described as an example. Each of the upper plates 10 shown in the figures is narrowed in width in the transverse direction so that the connection structure with the neighboring upper plate 10 can be grasped.

9, the upper plate 10 to which the transverse connection structure of the present invention is applied is a flexible member. In the embodiment of FIG. 9, the fixing end 15 is formed at both ends in the longitudinal direction, . At this time, a tension member 50 is disposed between the fixing end portions 15 formed at both ends of the upper plate 10 so that the tension member 50 is tensioned and fixed after the upper plate 10 is mounted at the installation position A tension force is introduced into the precast concrete upper plate 10. It is possible to reduce sag occurring in the upper plate 10 through the introduction of the tension force.

The horizontal portion 11 of the upper plate 10 is inserted into the lower portion of the upper plate 10 so that the steel wire 40 can be inserted into the lower portion of the upper plate 10 to assure integrity after assembly with the column 20 and the lower plate 30. [ The fixing end 14 may be formed on the upper surface and the insertion hole 16 may be formed in a vertical direction communicating therewith, or a sheath pipe (not shown) may be embedded.

As shown in FIGS. 9 and 10, the upper plate 10 is formed with grooves 18a along the longitudinal direction in a part of the side surface of both lateral ends in the longitudinal direction perpendicular to the longitudinal direction, And an injection hole 17 formed to communicate with the upper surface of the horizontal plate 11. The grooves 18a form a space of a connection groove 18 communicating only with the upper surface of the horizontal plate 11 through the injection hole 17 in a state of being in contact with the neighboring upper plate 10, Shrinkage mortar to be injected through the upper plate 17 and connects the side surfaces between the neighboring upper plates 10 and forms a shear key. 2 and 3, the lower plate 30 is also provided with an injection hole 37 and a groove 38a, and a space for the connection groove 38 is formed by the adjacent groove 38a, Shrinkage mortar may be injected into the upper plate 38 to connect the lower plates 30 arranged continuously and adjacent to each other in the transverse direction like the upper plate 10, and at the same time, a shear key can be formed.

As described above, a communication hole 19a is formed between the upper plates 10 adjacent to the upper plate 10 in the transverse direction to insert a tension member 19. The connection groove 18, which accommodates the non-shrinkage mortar, The tension member 19 passing through the through hole 18 is fixed in position as the non-shrinkage mortar accommodated in the connecting groove 18 is cured, thereby improving stability.

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 adjacent upper plates 10 in the longitudinally central portion of the upper plate 10 where deflection is maximized, The steel rod 110 is inserted into the steel pipe 100 and 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 central portion in the longitudinal direction of the bending member 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.

7 and 8, the lateral connection structure according to the third embodiment of the present invention includes the lower plate 30 and the posts (not shown) 20).

As shown in the figure, a steel pipe 100 and a steel rod 110 communicating 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 uppermost end of the coupling groove 28 so that injection of the non-shrinkage mortar can be easily performed, and more than two injection holes 27 may be provided in the vertical direction . 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.

11 is a schematic plan view showing a structure in which a precast concrete uppermost plate 10a member and a precast concrete widened portion 200 member are assembled together according to a third embodiment of the present invention. A schematic plan view showing a state in which the precast concrete outermost upper plate 10a member and the precast concrete widened portion 200 member of Fig. 11 are disassembled is shown.

The illustrated embodiment relates to a 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 and connected. As shown in Fig. 11, the outermost upper plate 10a has a concave portion 180 of a letter "A" formed at the longitudinal end portion corresponding to the outermost lateral side. Grooves 181 are formed in a part of the thickness direction along the concavities 180. The grooves 181 are formed in the grooves 280 formed at the corresponding positions of the precast concrete wider portion 200, The connecting groove 80 of the letter "a " is formed. Horizontal connectors 120 and 240 are provided in the longitudinal direction of the concave portion 180 and the outermost upper plate 10a at positions corresponding to the concave portion 180, respectively. 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 a spigot 120 formed on the wider portion 200 may be used as the wale portion 200. The wale portion 200 may be connected to the wider portion 200 in the longitudinal direction It may be used.

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 lateral direction of the wider portion 200 so as to communicate with a neighboring bending member 10 and a steel rod 220 is inserted into the steel pipe 210, And the connection between the flexible member 10 and the wider portion 200 can be ensured.

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; connection groove 80 in a state of being in contact with the first connection groove 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.

1 prefabricated box 10 top plate 10a outermost top plate 11 horizontal part 12 vertical part
13 right corner 14, 15 fixation end 16 insertion hole 17 injection hole 18 connection groove
18a groove 19 tension material 19a communication hole 20 column 21 vertical plate
22 bracket 23 step 26 insertion hole 27 communication hole 29 tension member
30 Lower plate 31 Horizontal part 32 Vertical part 33 Right part 34 Fixed part
35 Nut portion 36 Insertion hole 37 Injection hole 38 Connection groove 38a Groove
39 Tension material 39a Communication hole 40 Steel wire 40a Bolt part 50 Tension material
80 connection groove 100 steel pipe 110 steel rod 120 horizontal connection hole 170 injection hole
180 concave portion 181 groove 200 wider portion 201 protrusion 202 end
203 slope part 210 steel pipe 220 steel rod 230 fixing end part 240 horizontal connection part
270 Inlet Hole 280 Home

Claims (9)

The connection structure of the pre-cast concrete member 10, the column 20, and the lower plate 30,
The upper plate 10 includes a plate-shaped horizontal portion 11 and vertical portions 12 extending in a longitudinally bent shape at both longitudinal ends of the horizontal portion 11, A fixing end 14 formed by exposing the upper end of the insertion hole 16 to the upper surface of the horizontal portion 11 is formed And,
The column 20 includes a bracket 22 protruding outward at an upper end thereof and a step 23 corresponding to a vertical portion 12 of the upper plate 10 inside the bracket 22, And an insertion hole 26 communicating with the upper plate 10 and the lower plate 30,
The lower plate 30 includes a plate-shaped horizontal part 31 and a vertical part 32 extending in a longitudinally bent shape at both ends in the longitudinal direction of the horizontal part 31, An insert hole 36 communicating with the column 20 and the upper plate 10 is formed,
The steel wire 40 is inserted into the insertion holes 16, 26 and 36 communicating with the upper plate 10, the column 20 and the lower plate 30,
Wherein at least two of the upper plates 10 are 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 upper plates 10 in the upper plate 10, A groove 18a is formed along a longitudinal direction in a part of the thickness direction 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,
Shrinkage mortar is injected into the connecting groove (18) through the injection hole (17) in a state where two or more upper plates (10) are continuously arranged in the transverse direction, thereby forming a shear key. The method according to claim 1,
A plate-shaped fixing part 34 and a nut part 35 protruding upward from the fixing part 34 and having threads formed on the inner surface are embedded in the lower end of the insertion hole 16 provided in the lower plate 30, The upper end of the nut portion 35 is connected to the lower end of the insertion hole 16,
Wherein a bolt portion (40a) having a threaded outer surface is formed at a lower end of the steel wire (40), and the bolt portion (40a) is threadedly engaged with the nut portion (35). The method according to claim 1,
And a non-shrinkage mortar is injected into the insertion hole (16) into which the steel wire (40) is inserted. delete The method according to claim 1,
The upper plate, the lower plate, and the columns 10, 30, and 20 are arranged in a transverse direction,
The steel pipes 100 communicating with each other in the transverse direction perpendicular to the longitudinal direction between the upper plate, the lower plate and the columns 10, 30, and 20 adjacent to the upper plate, the lower plate, and the columns 10, 30, And grooves 18a, 38a and 28a are formed along the longitudinal direction in a part of the upper and lower plates 10, 30 and 20 in the thickness direction of both lateral ends of the columns 10, And injection holes 17, 37, 27 formed to communicate the upper surfaces of the upper and lower plates 10, 30 or the outer surface of the column 20,
The grooves 18a, 38a, 28a formed between the upper plate, the lower plate, and the columns 10, 30, 20, which are arranged in such a manner that two or more of the upper plate, the lower plate and the columns 10, The steel rods 110 are inserted into the steel pipe 100 which is formed between the adjacent upper and lower plates 10 and 30 and 20 by forming the grooves 18 and 38 and 28,
(18, 38, 28) through the injection holes (17, 37, 27) in a state in which two or more upper and lower plates (10, 30, 20) A connection structure of precast concrete prefabricated box which is injected and forms shear keys. 6. The method of claim 5,
Wherein the steel pipe (100) is disposed at a longitudinal center of the upper plate, the lower plate, and the columns (10, 30, 20). 6. The method of claim 5,
The upper and lower plates 10 and 30 and 20 have both ends opened in the connecting grooves 18 and 38 and 28 so that no shrinkage mortar is formed in the connecting grooves 18, And the shrink-free mortar is injected into the steel pipe (100) through an end of the opened steel pipe (100). 6. The method of claim 5,
39, 29 are disposed so as to penetrate the above-mentioned precast concrete upper plate, the lower plate, and the columns 10, 30, 20 continuously in two or more continuously in the transverse direction, and the tension members 19, 39, Wherein the first and second ends of the pre-cast concrete assembly box are fixed to each other. The method according to claim 1,
A fixing end (14) is formed at both ends in the longitudinal direction on at least one of the upper plates (10) of the upper plates (10) of two or more continuously arranged precast concrete, and a tension member And the tension member 50 is tensioned and fixed to the fixing end portion 14 after the upper plate 10 is installed at the installation position to introduce a tension force into the precast concrete upper plate 10. [ Connection structure of precast concrete prefabricated box.

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