JP4954226B2 - Prestressed concrete structure - Google Patents

Description

  The present invention relates to a prestressed concrete structure having a construction material connection structure. Hereinafter, prestressed concrete is abbreviated as “PC”.

  By forming a joint structure in which PC hollow pile walls with PC hollow piles arranged in a columnar structure are joined to the construction material, the PC hollow pile wall is not only used as a temporary mountain retaining wall but also as a structure for underground structures. To improve the workability and shorten the work period.

  That is, the construction material joining structure in the PC hollow pile is configured so that the end portion of the construction material is fixed to the embedded steel plate attached to the side surface of the PC hollow pile. The PC hollow pile is equipped with reinforcing bars that reinforce the joints with the structural members, and anchor bars that connect the reinforcing bars and the embedded steel plates, and the embedded steel plates are fixed to the embedded steel plates to form the structural materials. These steel plates are covered with concrete to be used (see, for example, Patent Document 1).

JP 11-36327 A (page 3-4, FIG. 1-2)

  As described above, the conventional PC hollow pile includes a reinforcing bar that reinforces the joint portion with the frame material, and an anchor bar that connects the reinforcing bar and the embedded steel plate. The structure is complex and the bar arrangement work is not easy. Furthermore, the reinforcement structure cannot be simplified in order to ensure the connection strength.

  The present invention has been made in view of these points, and an object of the present invention is to provide a prestressed concrete structure that has a simple structure and can secure sufficient connection strength with a construction material.

The invention according to claim 1 is a concrete molding part formed by centrifugal force in a long length, a tension material for prestressed concrete arranged in the axial direction in the concrete molding part, and an outer periphery of an intermediate part in the axial direction of the concrete molding part. It is equipped with a steel pipe for connecting a structural member embedded in a box shape with the surface exposed, and the concrete molding part is subjected to centrifugal force inside the steel pipe with axial prestress applied by the above-mentioned tension material The prestressed concrete structure is formed, and sufficient connection strength with the frame material is ensured by the steel pipe for connecting the frame material embedded in a box shape on the outer peripheral surface of the concrete molded part. Moreover, the steel pipe for connecting the construction material can be installed on the outer peripheral surface of the concrete molding portion regardless of the prestressed concrete tension material arranged in the concrete molding portion, and does not require a complicated reinforcing bar arrangement structure.

The invention according to claim 2 is a concrete molding part formed by centrifugal force molding in a long length, a tension material for prestressed concrete disposed in the axial direction in the concrete molding part, and an axial middle part of the concrete molding part. A plurality of mounting plates embedded in the side surface and the other side surface that is located on the opposite side of the one side surface, and an embedded plate that is disposed in the concrete molding portion while avoiding the tension material. Two connecting plates for connecting the left and right end portions and the other end portions of the embedded plate on the side surface, and these connecting plates are parallel to the tendon and between the two connecting plates. These connection plates have holes for supplying the concrete injected between the two connection plates during the centrifugal forming to the outside of the connection plates. A prestressed concrete structure is, and, between and between the other end left and right end portions of the buried plate for one side and the other side構架material embedded in the exposed state to connections of concrete molding portion, concrete molding The box structure connected by the connecting plate in the section ensures sufficient connection strength with the construction material. Moreover, it is easy to connect the left and right ends and the other end of the embedded plate for connecting the construction material on the one side and the other side with a connecting plate arranged in the concrete molding part while avoiding the tension material for prestressed concrete. The connection strength is ensured with a simple structure.

According to the first aspect of the present invention, the steel pipe for connecting the frame material embedded in a box shape on the outer peripheral surface of the concrete molding portion formed by centrifugal force molding in a state where axial stress is applied by the tension material , Sufficient connection strength with the construction material can be secured. In addition, the steel pipe for connecting the construction material can be installed on the outer peripheral surface of the concrete molding portion irrespective of the prestressed concrete tension material arranged in the concrete molding portion, and a complicated reinforcement structure can be prevented.

According to the second aspect of the present invention, between the left and right end portions and between the other end portions of the embedded plate for connecting the building material embedded in a state exposed on one side surface and the other side surface of the concrete molded portion, With the box structure connected by the connecting plate, sufficient connection strength with the construction material can be secured. Moreover, it is easy to connect the left and right ends and the other end of the embedded plate for connecting the construction material on the one side and the other side with a connecting plate arranged in the concrete molding part while avoiding the tension material for prestressed concrete. Connection strength can be secured with a simple structure. Furthermore, the concrete injected between the connecting plates on both sides during the centrifugal force forming is also supplied to the outside of the connecting plate through a hole drilled in the connecting plate, and the concrete solidified in the hole is formed in the concrete forming portion. The connecting plate can be securely fixed, and a load acting on the connecting plate can be supported.

It is a transverse direction sectional view showing a 1st embodiment of a frame connection part in a prestressed concrete structure concerning the present invention. It is a front view of the construction material connection part of a structure same as the above. It is the III-III sectional view taken on the line in FIG. It is sectional drawing which shows the underground structure constructed using the structure same as the above. It is a transverse direction sectional view showing a 2nd embodiment of a frame connection part in a prestressed concrete structure concerning the present invention. It is a front view of the construction material connection part of a structure same as the above. It is the VII-VII sectional view taken on the line in FIG.

  Hereinafter, the present invention will be described in detail with reference to the first embodiment shown in FIGS. 1 to 4 and the second embodiment shown in FIGS.

  First, the first embodiment shown in FIGS. 1 to 4 will be described.

  FIG. 4 shows an underground structure such as an underground passage, a subway, and an underground reservoir. First, a prestressed concrete wall body (hereinafter referred to as “PC”) 11 as a prestressed concrete structure having a square cross section is continuously grounded. Two rows of continuous walls are formed by inserting and water-stopping inside, and the top plate 12 is formed between the upper ends of these continuous walls by using cast-in-place concrete, or half precast concrete and cast-in-place concrete. A space 13 is formed between the two continuous walls, and a bottom slab 14 is formed between the relatively lower portions of the two rows of continuous walls. Has been.

  FIGS. 1 to 3 show a PC wall 11c as a prestressed concrete structure, and a PC as a tension material for prestressed concrete is placed inside a concrete molding portion 21 formed long by a centrifugal molding method or the like. A steel material 16 is arranged in the axial direction, and a rectangular steel pipe 51 for connecting a frame material is embedded in a box shape in the middle of the concrete molding portion 21 in the axial direction, exposed on the outer peripheral surface of the concrete molding portion 21. ing.

  The square steel pipe 51 is formed into a similar shape along the outer shape of the concrete molding portion 21 and has a concave groove 22 a that is continuous with the concave groove 22 of the concrete molding portion 21.

  Then, the steel plate of the bottom slab 14 as the frame material is formed on the flat surface portion 52 in which the concave groove 22a is not provided in the square steel pipe 51 for connecting the frame material embedded in the box shape on the outer peripheral surface of the concrete molding portion 21, By connecting with connecting bolts or welding, sufficient connection strength with the bottom plate 14 is secured.

  In addition, the steel pipe 51 for connecting the bottom plate is installed on the outer peripheral surface of the concrete molding portion 21 regardless of the PC steel material 16 disposed in the concrete molding portion 21, and does not require a complicated bar arrangement structure.

  Next, a second embodiment shown in FIGS. 5 to 7 will be described.

  FIGS. 5 to 7 show a PC wall 11d as a prestressed concrete structure, and a PC as a tension material for prestressed concrete is placed inside a concrete molding portion 21 formed long by a centrifugal force molding method or the like. The steel material 16 is disposed in the axial direction, and the embedded plate 61 for connecting the construction material is exposed on one side surface in the axial direction of the concrete molding portion 21 and on the other side surface opposite to the one side surface. Embedded in the state.

  The embedded plates 61 on the one side surface and the other side surface are connected to each other by a connecting plate 62 welded between the left and right end portions and the other end portion. These connecting plates 62 are disposed in the concrete molding portion 21 while avoiding the PC steel material 16. The connecting plate 62 has a plurality of holes 63 as shown in FIG.

  The concrete injected between the connecting plates 62 and 62 on both sides at the time of centrifugal force forming is also supplied to the outside of the connecting plate 62 through the holes 63, and the concrete solidified in the holes 63 is formed into concrete. It is possible to secure the connection plate 62 in the portion 21 and to support a load acting on the connection plate 62.

  In this way, the connection between the left and right end portions and the other end portion of the embedding plate 61 for connecting the construction material embedded in a state exposed on one side surface and the other side surface of the concrete molding portion 21 is connected in the concrete molding portion 21. The box structure connected by the plate 62 constitutes a structure for connecting the construction material having sufficient strength, and the steel plate 14 as the construction material is connected to the embedded plate 61 by connection bolts or welding. Ensuring sufficient connection strength with the bottom plate 14.

  In addition, the left and right end portions and the other end portions of the embedded plate 61 for connecting the bottom plate on one side and the other side are simply connected by a connecting plate 62 disposed in the concrete molding portion 21 while avoiding the PC steel material 16. Connection strength can be secured with a simple structure.

  The prestressed concrete structure of the present invention is not limited to the PC wall bodies 11, 11c, and 11d, and can be used for PC pile bodies or PC pillar bodies.

14 Bottom plate as construction material
16 PC steel as tension material
21 Concrete molding part
51 steel pipe
61 Embedded plate
62 Connecting plate

Claims (2)

A concrete molding part formed into a long centrifugal force ;
A tension material for prestressed concrete arranged in the axial direction in the concrete molding part;
A steel pipe for connecting a construction material embedded in a box shape in a state exposed on the outer peripheral surface of the middle part in the axial direction of the concrete molding part ,
A prestressed concrete structure in which a concrete forming portion is formed by centrifugal force in a state where an axial prestress is applied to the inside of the steel pipe by the tension material . A concrete molding part formed into a long centrifugal force ;
A tension material for prestressed concrete arranged in the axial direction in the concrete molding part;
A plurality of embedded plates for connecting a plurality of construction materials embedded in a state exposed on one side surface in the axial direction of the concrete molded portion and the other side surface opposite to the one side surface;
Two connecting plates that are disposed in the concrete molding portion while avoiding the tension material and connect between the left and right end portions and the other end portions of the embedding plate on one side surface and the other side surface ;
These connection plates are arranged parallel to the tendon and between the two connection plates in parallel to each other,
A prestressed concrete structure in which holes for supplying the concrete injected between the two connection plates to the outside between the connection plates are formed in these connection plates .

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