JPS6255376A - Production of prestressed concrete - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for producing prestressed concrete.

(Prior Art) Concrete is strong against compressive stress but weak against tensile stress, and prestressed concrete was developed to overcome this drawback. That is, a compressive stress is generated inside in advance, and this compressive stress cancels out the tensile stress caused by external force.

Methods for producing prestressed concrete include the boss tension method and the pretension method.

In the boss tension method, after the concrete has hardened, the reinforcing bars penetrating the concrete are pulled, and both ends of the tensioned reinforcing bars are fixed to the concrete via fixing plates. In this case, the elastic restoring force of the reinforcing bars is transmitted to the concrete via the anchor plate, so compressive stress is generated in the concrete. Moreover, in the pretension method, concrete F is poured and hardened while the reinforcing bars are in tension. In this case, due to the adhesion of the concrete and the reinforcing bars, the elastic restoring force of the reinforcing bars is transmitted to the concrete, creating compressive stress in the concrete. When manufacturing these prestressed concretes, it is necessary to tension the reinforcing bars.

For example, FIG. 5 shows the state of tensioning reinforcing bars in the production of breast-stressed concrete using the boss tension method. That is, one end 2a of the reinforcing bar 2 penetrating the concrete 1 is fixed to one end surface 1a of the concrete 1 via the fixing plate 10 and the nut 11. Similarly, the other end 2b of the reinforcing bar 2 is fixed to the other end surface 1b of the concrete 1 via the fixing plate 15 and the nut 16, and is made to protrude. Further, a U-shaped pedestal 50 is placed on the fixing plate 15, and a reciprocating rod 52 of a hydraulic jack 51 is inserted into a hole 50b of the pedestal 50.

Then, the other protruding end 2b of the reinforcing bar 2 and the screw rod 52 of the jack 51 are connected by a coupler 53.

In this state, the hydraulic jack 51 is operated to move the screw rod 5 forward and backward.
2 was pulled in the direction of the arrow in the figure.

(Problems to be Solved by the Invention) However, in the above method, the hydraulic jack 51 for pulling the reinforcing bar 2 requires a large pressure oil supply device, which is complicated to handle1), and it is difficult to use in a narrow space. The work was difficult at times.

(Means for solving the problem) This invention was made to solve the above problem, and its gist is that one end of the reinforcing bar penetrating through concrete is fixed, the other end is made to protrude from the concrete, and A pedestal with a cylindrical portion is arranged so as to surround the protruding end side of the reinforcing steel, a piston is connected to this protruding end side, and the space inside the cylindrical portion blocked by the piston is filled with an expandable filler. The method for producing prestressed concrete is characterized in that the reinforcing bars are stretched by the expansion action of the expandable filler.

(Operation) One end of the reinforcing bar penetrating the concrete is fixed, and the other end is made to protrude from the concrete. A pedestal with a cylindrical portion is arranged so as to surround the protruding end side of this reinforcing bar, and
A piston is connected to this protruding end side. An expandable filler is filled into the space within the cylinder portion that is closed by the piston. The reinforcing bars are stretched by the expansion action of the expandable filler. This tension 1) Generates compressive stress in the concrete by utilizing the elastic return force of the reinforcing bars to which the force has been applied.

(Example) Hereinafter, the production of prestressed concrete by the boss tension method of the present invention will be described with reference to FIGS. 1 and 2.

Rod-shaped reinforcing bars 2 are passed through a rectangular parallelepiped concrete 1. In addition, when manufacturing this concrete 1, grease is applied to the circumferential surface of the reinforcing bars 2 placed in the formwork, and a sheath pipe 3 made of vinyl chloride resin or the like is further covered, and the concrete is placed in the formwork in this state. Pour into the water and let it harden. Therefore, the reinforcing bar 2 is slidable within the sheath entry pipe 3. One end 2a of the reinforcing bar 2 having a threaded portion protrudes briefly from one end surface 1a of the concrete 1, and the other end 2b having a threaded portion
protrudes long from the other end surface 1b of the Funkley 1.

One end 2a of the reinforcing bar 2 is inserted into the insertion hole 1 formed in the fixing plate 10.
Insert it into 0a. Then, by hingeing and tightening the oak (oak) 11, one end 2a side of the reinforcing bar 2 is attached to the fixing plate 10.
It is fixed to one end surface 1a of concrete 1 via. Similarly, the other end 2b side of the reinforcing bar 2 is fixed to the other end surface 1b of the concrete 1 via the fixing plate 15 and the nut 16. In this state, the other end 2b of the reinforcing bar 2 protrudes long from the fixing plate 15, as shown in FIG.

Next, the pedestal 20 is placed so as to surround the other protruding end 2b of the reinforcing bar 2. Specifically, the pedestal 20 has a cylindrical portion 21 having a rectangular cross section and a pair of leg portions 22 and 22. Then, the other end 2b of the reinforcing bar 2 is inserted through the insertion hole 21b formed at the center of the bottom surface of the cylindrical portion 21, and the pair of leg portions 22
．． 22 against the fixing plate 15, the other end 2b of the reinforcing bar 2 protrudes into the cylindrical portion 21.

Next, the space 21a in the cylindrical part 21 of the pedestal 20 is filled with a slurry obtained by kneading the expandable filler 30 and water, the piston 2S is inserted, and the other end 2b of the reinforcing bar 2 is inserted into the insertion hole 25b of the piston 25. insert it into the

Next, the nut 26 is screwed onto the other end 2b and lightly tightened. As a result, the space 2ia closed by the piston 25 is filled with the slurry.

As the expandable filler 30, a lime-based or calcium sulfoaluminate-based expanding agent is used.

For example, Plaister (which is a trade name of Onoda Cement Co., Ltd. and is mainly used for brittle fracture of rocks and reinforced concrete) is used. This plyster expands and becomes sand-like when exposed to water in an unrestrained state, and expands and hardens in a restrained state.

The expandable filler 30 filled in the space 2ia expands over time due to a hydration reaction. At this time, the piston 25 receives the expansion pressure of the expandable filler 30, and the piston 25 pulls the reinforcing bar 2 through the nut 26 in the direction shown by the arrow in FIG. At this time, since the reinforcing bars 2 can slide inside the sheath pipe 3, they are not restrained by the concrete 1 and are not constrained by the oak [1, 2
The area between 6 is elongated. Although a gap is created between the fixing plate 15 and the nut 16 due to the elongation of the reinforcing bar 2, the pedestal 20
By inserting a spanner or the like between the pair of legs 22, 22, the nut 16 can be further tightened toward the fixing plate 15 by the above-mentioned gap. As a result, the reinforcing bar 2 is fixed in a stretched state between the fixing plates 10 and 15. As a result, the elastic restoring force of the reinforcing bars 2 in tension acts on the concrete 1, applying compressive stress to the concrete 1, and prestressed concrete is completed.

When using this prestressed concrete,
Remove the pedestal 20. Natsu 26. The piston 25 is removed, the restraint of the expandable filler 30 in the cylinder part 21 of the pedestal 20 is released, and the hardened expandable filler 30 is turned into sand and removed from the cylinder part 21.

Finally, the pedestal 20 is pulled out from the reinforcing bar 2, and the other end 2b of the reinforcing bar 2 may be cut short before use.

FIG. 3 is an example of a pond and shows the production of prestressed concrete by the pretensioning method. In this method, the reinforcing bars 2 are first inserted into a cylindrical formwork 12 with a rectangular cross section and protruded from openings at both ends. Then, the fixing plate 10 is supported by a nut 11 on one end 2a of the reinforcing bar 2,
This fixing plate 10 closes one end opening of the formwork 12.

Next, concrete 4 is filled from the other end opening of the formwork 12. After the formwork 12 is filled with concrete 4, the fixing plate 15 is fitted on the lc end 2b side of the reinforcing bar 2, and the nut 1 is
6 is hinged and tightened to the formwork 12 side, thereby closing the opening at the other end of the formwork 12.

From this state, as in the above embodiment, the other end 2b of the reinforcing bar 2
The pedestal 20 is arranged so as to surround the side, and the other end 2b of the reinforcing bar 2 is made to protrude into the cylindrical part 21 of the pedestal 20. Then, the space 21a in the cylindrical portion 21 is filled with a slurry obtained by kneading the expandable filler 30 and water, and the space 21a is closed with the piston 25 and the nut 26.

The expandable filler 30 filled in the space 2ia expands over time due to a hydration reaction, and the reinforcing bar 2 is pulled and elongated by the piston 25 in the direction indicated by the arrow in FIG. 3. Although a gap is created between the fixing plate 15 and the nut 16 due to the elongation of the reinforcing bar 2, the nut 16 is further tightened toward the fixing plate 15 by the gap. As a result, the reinforcing bars 2 are attached to the fixing plate 1.
0. It is fixed in a tensioned state between I and 5.

Concrete 4 hardens while reinforcing bar 2 is stretched,
Concrete 4 adheres to reinforcing bars 2. As a result, the elastic restoring force of the reinforcing bars 2 in tension acts on the concrete 4, and compressive stress is applied to the concrete 4.
Prestressed concrete is completed.

When using this prestressed concrete,
Pedestal 209 Both fixing plates 10. Remove IS and formwork 12.

FIG. 4 is a further embodiment showing the production of prestressed concrete by the pretensioning method, in which a pedestal 40 having a rectangular cross section and only a cylindrical portion 41 without legs is used. The bottom portion 45 of this pedestal 40 closes the other end opening of the formwork 12 instead of the fixing plate 15 of the above embodiment. Since the pond is the same as that in the above embodiment, the same reference numerals are given and the explanation thereof will be omitted.

This invention is not limited to the above embodiments and can be modified in various ways. For example, the other end 2b of the reinforcing bar 2 can be directly connected to the piston 25.
Alternatively, the other end 2b may be connected to a threaded rod with a coupler, and this threaded rod may be connected to the piston 25 with a nut 26.

In addition, in the case of the pretension method, concrete may be poured into the formwork after the tensioning work of the reinforcing bars is completed.

(Effects of the Invention) As explained above, in this invention, one end of a reinforcing bar penetrating through concrete is fixed, the other end is made to protrude from the concrete, and a cylindrical part is provided so as to surround the protruding end side of this reinforcing bar. In addition to arranging a pedestal, a piston is connected to the projecting end side, and an expandable filler is filled in the space inside the cylinder portion that is closed by the piston, and the expansion action of this expandable filler causes the reinforcing steel to The work is easy because it pulls. It can also work in relatively narrow spaces.

[Brief explanation of drawings]

FIG. 1 and FIG. 2 show an embodiment of this invention,
Fig. 1 is a cross-sectional view showing the tensioning work of reinforcing bars in prestressed concrete production, Fig. 2 is a perspective view of concrete and a pedestal, Figs. 3 and 4 are views corresponding to Fig. 1 of other embodiments, and Fig. 5 The figure is a cross-sectional view showing the tensioning work of reinforcing bars in conventional prestressed concrete production. 1.4...Funkret, 2...Reinforcing bar, 2a...
One end of reinforcing bar, 2b...other end of reinforcing bar, 20.40
...Pedestal, 21a...Space, 2500. Piston, 30... Expandable filler.

Claims (1)

[Claims] (1) One end of the reinforcing bar penetrating the concrete is fixed, the other end is made to protrude from the concrete, a pedestal with a cylindrical part is arranged to surround the protruding end side of the reinforcing bar, and a piston is placed on the protruding end side. A method for producing prestressed concrete, which comprises: connecting the pistons to each other, filling an expandable filler into the space in the cylinder portion blocked by the piston, and pulling the reinforcing bars by the expansion action of the expandable filler.