JP2714604B2 - Prestressed concrete pile and method for manufacturing the same - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention is particularly applicable to 100 kgf / cm
^{The present} invention relates to a prestressed concrete pile suitable for a high bending moment pile to which ^two or more prestresses are applied, and a method for manufacturing the same.

[0002]

^2. Description of the Related Art Conventionally, class A piles having a prestress of about 40 kgf / cm ² have been used for prestressed concrete piles.
There are Class B piles of about 0 kgf / cm ² and Class C piles of 100 kgf / cm ² or more, which are concentric with the concrete pile 1 having a cylindrical cross section within the wall thickness as shown in FIG. PC consisting of multiple PC steel rods or PC steel stranded wires in a circular arrangement
The steel materials 2, 2, ... are inserted, and a desired prestress is introduced by the tension. In the figure, reference numeral 3 denotes a lateral restraint muscle (or a spiral muscle, the same applies hereinafter).

[0003] In the conventional production of prestressed concrete, a centrifugal molding method is mainly employed. In this method, a PC steel material is inserted into a cylindrical centrifugal molding form together with a necessary arrangement of lateral restraint bars. And, the PC steel material,
Both ends are supported by a formwork and pre-tensioned. Then, concrete is poured by a centrifugal molding machine, molded, solidified and cured. A so-called pretension system is adopted in which a prestress is introduced by causing the prestress to be introduced.

[0004]

In such a conventional concrete pile having a high bending moment, it is necessary to increase the number of PC steel materials in order to increase the prestress to be introduced. Within the wall thickness, there is a limit to the number of PC steel materials arranged on the same circumference due to the necessity of installing fixing nuts and space for the operation, especially in the case of Class A piles. The intervals between the PC steel materials are extremely narrow, and the fixing operation is troublesome. At the same time, it is difficult to arrange a certain amount of reinforcing bars, so that there is a problem in that a limit to high prestressing is caused.

Further, in the conventional prestressed concrete pile and the method of manufacturing the same, the magnitude of the prestress to be introduced is determined by the tension state at the time of forming the concrete pile body. Each of them must be manufactured by a separate process.
There is a problem that the production management such as the stock after the production has to be performed separately.

[0006] The present invention, in view of these conventional problems,
Provided is a prestressed concrete pile which can be arranged without congestion of a PC steel material even in a concrete pile having a high bending moment and can be adjusted to a prestress of a size required at the time of shipping, and a method of manufacturing the same. It was made for the purpose.

[0007]

A feature of the prestressed concrete pile of the present invention for solving the above-mentioned conventional problems is that a PC steel material is inserted in a longitudinal direction of a concrete pile body, and the prestressed concrete steel is tensioned. In the prestressed concrete pile obtained by introducing stress, a plurality of hollow cylindrical tubular PC steel materials arranged in the cross section of the concrete pile body in the longitudinal direction are used to introduce prestress into the concrete pile body, and PC
A prestressed concrete pile provided with a prestress by a PC steel rod or a rod-shaped PC steel made of a PC steel stranded wire inserted into a part or all of a cylindrical PC steel material among steel materials (Claim 1).

The method of manufacturing a prestressed concrete pile according to the present invention is characterized in that firstly, after a primary prestress is introduced by a pretensioning method using a hollow cylindrical tubular PC steel material inserted into a concrete pile body, A method of manufacturing a prestressed concrete pile, characterized in that a PC steel rod or a rod-shaped PC steel made of a stranded PC steel is inserted into a cylindrical PC steel and secondary prestress is introduced by a post-tensioning method (claim 2). Second, a large number of hollow cylindrical tubular PC steel materials are inserted into a concrete pile centrifugal forming mold in a circular position concentrically arranged with the mold in the longitudinal direction, and each of the cylindrical The PC steel material is supported at the end of the formwork and is centrifugally formed while injecting concrete into the formwork in a tensioned state, and after solidification and curing of the concrete, Type and is introduced to the primary pre-stressing by the tubular PC steel concrete pile body that is molded, thereafter, PC steel rod or PC into cylindrical PC in steel
A method of manufacturing a prestressed concrete pile characterized by introducing a secondary prestress by inserting a rod-shaped PC steel material made of a stranded steel wire and tensioning the steel material (claim 3). In the production of the class C pile, the primary prestress is preferably 40 to 60 kgf / cm ² , and the total prestress after the application of the secondary prestress is preferably 100 kgf / cm ² . The secondary prestress can be appropriately adjusted to provide a total prestress of 200 kgf / cm ² or more.

[0009]

The prestressed concrete pile of the present invention introduces prestress using a tubular PC steel,
Since the prestress is further introduced by the bar-shaped PC steel material inserted into the hollow, a large prestress can be introduced without being crowded even when the PC steel materials having the same circumferential arrangement are piles having a high bending moment.

Further, in the manufacturing method of the present invention, a pre-stress is introduced by a tubular PC steel by a pre-tension method, and after the concrete is solidified, a pre-stress by a post-tension method by a rod-shaped PC steel is utilized by utilizing the inside of the tubular PC steel. Therefore, the size of the prestress can be adjusted after the pile is formed, and the number of bar-shaped PC steel materials to be used can be adjusted as necessary. It is possible to introduce a sufficiently large prestress with only the same number as the PC steel.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of the present invention will be described with reference to FIGS.
Will be described.

FIGS. 1 and 2 show a prestressed concrete pile according to the present invention. In the figures, reference numeral 10 denotes a concrete pile having a hollow hole at the center. Within the thickness of the pile body 10, a number of tubular PC steel materials 11,
11 are buried. This tubular PC steel material 11
A PC steel material formed by forming a steel material into a hollow cylindrical shape, and having a concavo-convex pattern on the outer periphery for enhancing the adhesive force with concrete is used, whereby the concrete pile 10 is 40-60 kgf in the longitudinal direction. / cm ² prestress is applied.

The prestress is introduced by a pretension method, and the return force after the tension of the PC steel is applied in the direction of compressing the concrete pile 10 in the longitudinal direction due to the adhesion between the cylindrical PC steel 11 and the concrete. Is what it is.

A rod-shaped PC steel material 12 made of a PC steel rod or a stranded PC steel is inserted into each cylindrical PC steel material 11, and the end of the PC steel material 12 is a support outside the end of the cylindrical PC steel material 11. The fixing unit 14 fixes the pressure unit 13. The fixing member 14 is a wedge fixing method in which an end of the PC steel material 12 is clamped by a wedge, or a nut fixing method in which a nut is screwed around the PC steel material 12 when a PC steel rod is used. Is also good.

The rod-shaped PC steel material 12 is tensioned, and is moved in the longitudinal direction with respect to the concrete pile 10.
A prestress of 0 to 60 or more is applied, and a total of 100 kgf / cm ² or more of prestress is introduced into the concrete pile together with the prestress by the tubular PC steel 11 described above.

In the drawing, reference numeral 15 denotes a tubular PC steel material 11, 11,...
Are spirally arranged outside the circular arrangement of... And are combined with the PC steel material 11 in a basket shape.

In manufacturing the prestressed concrete pile constructed as described above, a centrifugal molding form 20 is used as shown in FIG. First, the cylindrical PC steel 11, 11,... Are supported in a circular arrangement inside the horizontal restraint 15 in the mold frame 20 and are combined in a spiral cage shape.
.. And the lateral restraining bars 15 are inserted.

Both ends of each of the tubular PC steel members 11 penetrate through end plates 21 (hooks) for reinforcing both ends of the concrete pile 10, and a fixed supporting plate 22 is fixed to one end of the form 20. One end side of each tubular PC steel material 11 is made to penetrate therethrough and is prevented from coming off by a nut 23.

Inside the other end of the form 20, a tension support plate 24 is provided.
Is inserted movably in the axial direction, and the cylindrical PC steel 1
The other end of 1 is penetrated and is prevented from coming off by a nut 23.

One end of a tension shaft bolt 25 is fixed at the center of the tension support plate 24, and the other end is penetrated by a fixed support plate 26 supported by the other end of the form 20. 27 allows the fixed supporting plate 26 to take a reaction force to be pulled.

After assembling each member to the formwork 20 in this manner, the member is pulled by the jack 27 and the cylindrical PC steel 1
Are simultaneously tensioned. After a predetermined tension, the nut 28 is screwed into the tension shaft bolt 25, the nut 28 is moved to the fixed supporting plate 26 side, the detent is stopped, and the jack 27 is removed.

In this state, the mold 20 is placed on a rotating roller 29 of a centrifugal molding machine, and a mortar injection pipe 30 is inserted from a center hole of one end plate 21 while rotating at a high speed. The body 10 is formed.

Then, after curing as necessary, solidification is performed, and after reaching the desired concrete strength, the mold is released. At the time of this demolding, the nut 28 is loosened, and the tubular PC steel material 11, 11,...
As a result, a pre-stress is introduced into the concrete pile 10 by the pre-tension method.

After the mold is removed in this manner, the protruding portions of the tubular PC steel members 11, 11,... Are cut into the state shown in FIG.
The rod-shaped PC made of PC steel rod or PC steel stranded wire
The steel material 12 is inserted, and the end is supported on the supporting portion 13 of each end plate 21 via the fixing body 14, and one end thereof is tightened by a jack (not shown). Introduce pre-stress by tension method.

As shown in FIG. 4, the fixing member 14 is fixed by a fixing wedge 31 by the return force of the rod-shaped PC steel material 12, so-called wedge fixing.
The fixing nut 32 may be screwed onto the outer periphery of the C steel material 12 to stop the return.

In the above embodiment, the cylindrical PC steel 11
When the prestress is introduced, stress is introduced by adhesion to concrete. In addition, although not shown in the drawing, a fixing nut on the outer periphery of the end of the tubular PC steel material 12 is screwed. After detent, stress may be introduced by imparting tension to the nut.

When a so-called class B pile having a conventional prestress of about 60 kgf / cm ² is manufactured by this method, for example, a prestress of about 40 kgf / cm ² is introduced by using a tubular PC steel material 11 by a pretension method. In addition, the remaining 20 kgf / cm ² prestress was introduced into a part of the cylindrical PC steel 11 with the rod-shaped PC steel 12 by the post-tension method, and a class C pile into which a 100 kgf / cm ² prestress was introduced. For the body, the remaining 60
A prestress of kgf / cm ² is introduced into all the tubular PC steel materials 11 with the rod-shaped PC steel material 12.

In addition, in the case of various class C piles having different prestresses of class C piles, a prestress of about 60 kgf / cm ^{2 is} introduced in advance into the tubular PC steel material 11 and the rod shape used is Various methods can be adopted, such as changing the number and tension of the PC steel materials 12 to obtain a desired total prestress.

[0029]

The prestressed concrete pile of the present invention and the method for producing the same have the following effects. (1) Since prestress is applied by a tubular PC steel material and further prestressed by a rod-shaped PC steel material passed therethrough, compared to conventional high bending moment concrete piles, the prestress is applied between the PC steel materials. Spacing can be widened, and a pile having a larger bending moment than before can be provided. (2) Since the bar-shaped PC steel material for introducing a prestress by the post-tension method for obtaining a high bending moment is arranged in the hollow portion of the tubular PC steel material by the pre-tensioning method, the bar-shaped PC steel material is arranged in the pile concrete section. The number does not exceed the number of cylindrical PC steel
Even in the production of a large diameter high bending moment pile in which a large number of PC steel materials need to be arranged, the PC steel materials can be arranged without being mixed. For this reason, the efficiency of the centrifugal compaction of the concrete is improved. (3) A large-diameter PC steel material can be used as the rod-shaped PC steel material by the post-tension method by increasing the diameter of the hollow portion of the tubular PC steel material by the pre-tension method. This can reduce the number of prestress introduction ports. (4) Since the diameter and the number of the rod-shaped PC steel can be freely selected, a prestress of a free size other than the standard prestressing force can be introduced as required. Since it is possible to add a pre-stress by a necessary post-tension method as needed after manufacturing, inventory management is simplified. (5) By using a PC strand as the bar-shaped PC steel material, the strength is higher than that of a conventionally used PC steel bar, so that it is economical. Further, since the uniform elongation is larger than that of the PC steel rod, the effect of improving the bending toughness of the pile body by the lateral constraint of the concrete can be significantly increased. (6) Since the outer diameter of the cylindrical PC steel material is larger than that of a normal PC steel rod, the rigidity is high. Because of the remarkably large size, the arrangement of the reinforcing rod cage in the formwork becomes easy, and the accuracy of securing the main reinforcing rod arrangement by compaction of the pile concrete by centrifugal force increases.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing one embodiment of a prestressed concrete pile according to the present invention.

FIG. 2 is a sectional view taken along line AA in FIG.

FIG. 3 is a longitudinal sectional view showing one embodiment of the manufacturing method of the present invention.

FIG. 4 is a cross-sectional view of an example of a fixed state of the rod-shaped PC steel according to the first embodiment.

FIG. 5 is a sectional view of another example of the fixing state of the rod-shaped PC steel according to the first embodiment.

FIG. 6 is a sectional view of an example of a conventional prestressed concrete pile.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Concrete pile body 11 Cylindrical PC steel material 12 Bar-shaped PC steel material 13 Bearing part 14 Fixing body 15 Lateral restraint 20 Formwork 21 End plate 22 Fixed bearing plate 23,28 Nut 24 Tension bearing plate 25 Tension bolt 26 Pressure plate 27 jack 29 rotating roller 30 mortar injection tube 31 fixing wedge 32 fixing nut

 ────────────────────────────────────────────────── ─── Continued on the front page (73) Patent holder 000229667 Japan Hume Pipe Co., Ltd. 5-33-11, Shimbashi, Minato-ku, Tokyo (73) Patent holder 591197699 Japan High Pressure Concrete Co., Ltd. Minami 2-jo, Chuo-ku, Sapporo, Hokkaido, Japan 3-8 Nishi (73) Patent Holder 000201504 6-7 Uehonmachi, Sakata-shi, Yamagata Pref. 000201504 (73) Patent Holder 000176512 Mitani Sexan Co., Ltd. 1-3-1 Toshima, Fukui-shi, Fukui Pref. (72) Inventor Rokushi 1 Kawashima Umezonocho, Nishikyo-ku, Kyoto

Claims (4)

(57) [Claims] 1. A prestressed concrete pile in which a PC steel material is inserted in the longitudinal direction of a concrete pile body and prestress is introduced by the tension of the PC steel material, wherein a plurality of prestressed concrete piles are arranged in the cross section of the concrete pile body in the longitudinal direction. The prestress is introduced into the concrete pile body by using the hollow cylindrical cylindrical PC steel material, and the PC steel rod or PC steel inserted into a part or all of the cylindrical PC steel material is used. A prestressed concrete pile obtained by applying a prestress with a bar-shaped PC steel material made of a stranded wire. 2. After a primary prestress is introduced by a pretensioning method using a hollow cylindrical tubular PC steel material inserted into a concrete pile, P is introduced into the tubular PC steel material.
A method for manufacturing a prestressed concrete pile, characterized by inserting a rod-shaped PC steel material made of a C steel rod or a PC steel stranded wire and introducing a secondary prestress by a post-tension method. 3. A plurality of hollow cylindrical tubular PC steel materials are inserted into a concrete pile centrifugal forming mold in a circular arrangement concentrically arranged with said mold toward the longitudinal direction.
The steel material is supported by the ends of the formwork and is centrifugally formed while concrete is poured into the formwork in a tensioned state. Introduce primary prestressing of the tubular PC steel, after which a PC steel rod or PC is inserted into the tubular PC steel.
A method for producing a prestressed concrete pile, characterized in that a rod-shaped PC steel material made of a stranded steel wire is inserted and tensioned to introduce a secondary prestress. 4. The primary prestress is 40-60 kgf / cm ^2.
The method for producing a prestressed concrete pile according to claim ² , wherein the total prestress after the application of the secondary prestress is 100 kgf / cm ² .