JPH11152746A - Reinforcing method of single column footing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a reinforcing method of a single column footing used for pile bent pier, etc. SOLUTION: All of immersion bodies 20 constituted of a plurality of segment pieces are jacked forcedly into the ground around the pile bent pier 10. The insides of the immersion bodies 20 are excavated by underwater excavation, and the circumference of the pile bent pier 10 is excavated downward. Then, cconcretes 24 and 27 are cast into the immersion bodies 20, and a stiffening body 1 making the immersion bodies 20 as the prototype is formed around the pile bent pier 10. Then, since all of the immersion bodies 20 are jacked forcedly into the ground, the stiffening body 1 making the immersion bodies 20 as the prototype is in a state to fix to the pile bent pier 10. By the constitution, and since the stiffening body 1 can be fixed to such a place as flexural rigidity of the pipe bent pier 10 is increased, the pile bent pier 10 can be reinforced against bending load. Furthermore, before the concrete 27 is cast, it is monolithically formed through reinforcing bars 25, etc., arranged inside of the immersion bodies 20, and the stiffening body 1 making the immersion bodies 20 as the prototype is surely fixed to the pile bent pier 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for reinforcing a single-column foundation used for a pile-type pier (pile vent pier) or the like.

[0002]

2. Description of the Related Art In recent years, seismic standards have been revised in consideration of the damage caused by the Great Hanshin-Awaji Earthquake. For this reason, reinforcement work on piers such as highways has been carried out in various places. For example, reinforcement work is performed on the pier by attaching a steel material around the pier.
In addition, reinforcement work is performed on the foundation by placing concrete around the excavated foundation and placing concrete.

[0003] The bridge piers that have been reinforced in this manner can meet the revised seismic standards because the bending stiffness of the piers is increased by steel and the bending stiffness of the foundations is increased by concrete. Becomes

[0004]

However, in the conventional reinforcement work, it is necessary for a worker to enter around the excavated foundation to discharge the earth and sand, so that considerable consideration must be given to workability and safety. And had

In particular, a pile-type pier using a single-column foundation is formed as a base portion by driving a PC pile or the like deeply. Therefore, in order to reinforce the foundation portion, the surrounding area must be deeply excavated. However, demands for workability and safety are extremely high.

[0006] Further, there is a possibility that groundwater flows out due to deep excavation, and the reinforcement itself of the foundation is hindered. Furthermore, since the PC pile or the like used as the foundation also serves as the pier, the reinforcement work of the pier may be hindered.

Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a method of reinforcing a single-column foundation used for a pile-type pier or the like.

[0008]

According to a first aspect of the present invention, there is provided a method for reinforcing a single-column foundation, comprising a plurality of segment pieces, and a method for reinforcing a ground around a single-column foundation. A submerged body that is entirely or partially press-fitted is used as a prototype of a stiffening body that increases the bending rigidity of the single-column foundation. A method for reinforcing a single-column foundation according to a second aspect is the method for reinforcing a single-column foundation according to the first aspect, wherein the stiffener is integrated with the single-column foundation.

A third aspect of the present invention is a method for reinforcing a single-column foundation according to the first or second aspect, wherein the single-column foundation is an existing one. Features. A method for reinforcing a single-column foundation according to claim 4 is the method for reinforcing a single-column foundation according to any one of claims 1 to 3, wherein the single-column foundation is a pile-type pier. It is characterized by the following. In addition, the method for reinforcing a single-post foundation according to claim 5 performs the method for reinforcing a single-pillar foundation according to any one of claims 1 to 4 as a floating work, and a method of constructing a submerged body in an underwater part after the work. It is characterized by being removed.

In the method of reinforcing a single-column foundation according to the present invention having such a configuration, all or a part of a submerged body constituted by a plurality of segment pieces is pressed into the ground around the single-column foundation. Then, by excavating the inside of the submerged body by underwater excavation or the like, the surroundings of the foundation are dug down. Thereafter, a stiffening body having the sunk body as a prototype is formed around the foundation by filling the sunk body with concrete or the like.

At this time, since all or a part of the submerged body is pressed into the ground, the stiffening body having the submerged body as a prototype is fixed to the single-column foundation. Thus, the stiffener can be fixed to a portion where the bending rigidity of the single-column foundation is to be increased, so that the single-column foundation can be reinforced against a bending load. In addition, if the stiffener having the sunk body as a prototype is securely fixed to the single-column foundation, if the stiffener is integrated via a reinforcing bar or the like arranged in the sunk body before filling the concrete.

That is, in the method of reinforcing a single-column foundation according to the present invention, when forming a stiffening body having a sunk body as a prototype around the single-column foundation, the sunk body pressed into the ground around the single-column foundation is removed. By digging with underwater digging, etc., it is possible to dig deep around the foundation without workers entering, so workability and safety considerations are significantly reduced,
In addition, even if groundwater flows out, the reinforcement of the single-column foundation itself will not be hindered.

Further, even if an off-the-shelf PC pile or the like is used as a single-column foundation as it is, if it is reinforced by the method for reinforcing a single-column foundation according to the present invention, it becomes possible to meet the revised seismic standard. Existing PC piles can be used effectively.

The stiffener formed around the single-column foundation is integrated with the single-column foundation, thereby improving the original function of increasing the bending rigidity of the single-column foundation and improving its reliability. Can also be improved. Further, it can also have a footing function of transmitting the load transmitted from above to the ground in a reduced manner.

[0015] The stiffening body formed around the single-column foundation is composed of a plurality of segment pieces, and the stiffened body, which is entirely or partially pressed into the ground around the single-column foundation, is used as the original model. Therefore, it is possible to form a stiffener also around the already provided single-column foundation.

Further, even if the single-column foundation is a pile-type pier, the reinforcing work itself is not hindered from the above. Furthermore, since a PC pile or the like used for a single-column foundation also serves as a pier as well as a foundation, a single stiffener can simultaneously reinforce the pier and the foundation. Further, according to the method for reinforcing a single-column foundation of the present invention, the above works can be carried out as floating works on lakes and rivers.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. The method for reinforcing a single-column foundation according to the present embodiment is for a single-pillar foundation used as a pile-type pier. However, since the pile-type pier serves both as a foundation and a pier, here, for convenience of explanation, a portion driven into the ground is referred to as a foundation, and a portion exposed on the ground surface is referred to as a pier.

Hereinafter, a method of reinforcing the single-column foundation according to the first embodiment will be described. The method for reinforcing a single-column foundation according to the first embodiment is for a foundation portion of an already provided pile-type pier (corresponding to a single foundation column). First, as shown in FIG. 2, a slide column 11 is provided on a pier portion of a pile-type pier 10 already provided. Further, both ends of the clevis jack 12 are slidably attached to the slide support 11. The pile-type pier 10 of the first embodiment has a plurality of P
Assembled from C-well.

Next, by connecting the segment pieces 22 shown in FIG. 9 to each other by bolting, a cylindrical sinking body 20 shown in FIG. 10 is constructed. At this time, as shown in FIG. 3, the periphery of the pile type pier 10 is surrounded by the subsidence body 20. A cutting edge ring 21 is attached to the lower end of the submerged body 20, and the submerged body 20 is pressed into the ground around the pile-type pier 10 by being pressed by the clevis jacks 12 at both ends.

Thereafter, as shown in FIG. 4, the inside of the submerged body 20 is excavated by using a clam shell 14 attached to the raphtalane crane 13 to excavate around the pile type pier 10. Therefore, no worker enters around the excavated pile type pier 10 (inside the submerged body 20). In addition, the groundwater flowing into the submerged body 20 does not affect the excavation work in the submerged body 20.

Then, as shown in FIG. 5, the submerged body 2 is pressed until the submerged body 20 pressed into the ground reaches a predetermined depth.
A series of operations including connection of the segment piece 22 to the upper end of the zero, press-fitting of the sedimentary body 20 after the connection, and underwater excavation in the sedimentary body 20 after the press-fitting are repeatedly performed. When the underwater excavation in the submerged body 20 that has reached the predetermined depth is completed, as shown in FIG.
Concrete 24 is poured into the inside to a predetermined height.

Thereafter, as shown in FIG. 7, the slide column 11 and the clevis jacks 12 at both ends are removed from the pier of the pile-type pier 10, and anchor bolts are attached to the pile-type pier 10 exposed on the ground surface and in the submerged body 20. Type 29. Furthermore, the anchor bolt 29 driven into the pile type pier 10
And the reinforcing bar 25 is arranged in the submerged body 20 so as to be fixed to the reinforcing bar cage 23 arranged in the submerged body 20. Further, the reinforcing rods 2 are fixed to the anchor bolts 29 driven into the pile type pier 10 and the reinforcing rods 25 disposed in the submerged body 20.
6 is arranged on the pier of the pile type pier 10.

Then, as shown in FIG. 8, concrete 25 is poured into the submerged body 20. Thereby, the sinking body 2
A stiffener 1 having a base of 0 is formed around the pile-type pier 10, and the foundation of the pile-type pier 10 is reinforced. Further, as shown in FIG. 1, the pier portion of the pile-type pier 10 is reinforced by using an anchor bolt 29 driven into the pile-type pier 10 and laminating the steel plates 28.

Next, a method of reinforcing a single-column foundation according to a second embodiment will be described. The method for reinforcing a single-column foundation according to the second embodiment is for a foundation of a pile-type pier (corresponding to a single foundation column) to be provided. First, the segment pieces 22 shown in FIG. 9 are connected to each other by bolting, so that a cylindrical set body 20 as shown in FIG.
Is constructed. At this time, a cutting edge ring 21 is attached to the lower end of the constructed submerged body 20, and the submerged body 20 is pressed into the ground as shown in FIG. 11 by being pressed by a jack (not shown). .

Thereafter, using the clamshell 14 of the raphtalane crane 13 shown in FIG.
Underwater excavation inside. And the submerged body 2 pressed into the ground
Until 0 reaches a predetermined depth, the connection of the segment piece 22 to the upper end of the submerged body 20, the submerged body 20 after the connection
A series of operations of press-fitting and underwater excavation after press-fitting are repeatedly performed. Therefore, the groundwater flowing into the submerged body 20 does not affect the excavation work in the submerged body 20.

When the underwater excavation in the submerged body 20 reaching the predetermined depth is completed, the pile type pier 10 is driven into the submerged body 20 as shown in FIG. Thereby, the pile type pier 10
The area around is excavated. Therefore, no worker enters around the excavated pile type pier 10. The second
The pile type pier 10 of the embodiment is also assembled from a plurality of PC wells.

A cutting edge ring 16 is attached to the lower end of the pile-type pier 10, and is driven by a driving machine (not shown), as shown in FIG.
0 is entered. In addition, as for the PC well located in the submerged body 20, the one in which the anchor bolt 29 is already driven is used.

Thereafter, as shown in FIG. 13, the bottom slab concrete 16 is poured into the pile-type pier 10 to change the water, and the reinforcing bar 23 is disposed in the submerged body 20. Then, as shown in FIG. 14, concrete 24 is poured into the submerged body 20. As a result, the stiffening body 1 having the submerged body 20 as a prototype is formed around the pile-type pier 10, and the foundation of the pile-type pier 10 is reinforced.

A plurality of PC wells are further assembled on the pile-type pier 10 whose base is reinforced, and the pier portion of the pile-type pier 10 is constructed.

As described above in detail, in the method for reinforcing a single-column foundation according to the present embodiment, the entire submerged body 20 constituted by the plurality of segment pieces 22 is pressed into the ground around the pile-type pier 10. You. Then, by excavating the inside of the submerged body 20 by underwater excavation or the like, the periphery of the pile-type pier 10 is dug down. After that, the concrete 2
By staking the 4 and 27, the stiffening body 1 having the sinking body 20 as a prototype is formed around the pile type pier 10.

At this time, since the entire submerged body 20 is pressed into the ground, the stiffener 1 having the submerged body 20 as a prototype is fixed to the pile-type pier 10. Thereby, the stiffener 1 is provided at a place where the bending rigidity of the pile type pier 10 is to be increased.
Can be fixed, so that the pile type pier 10 can be reinforced against a bending load. Further, in the first embodiment, before the concrete 27 is cast,
In the second embodiment, via a reinforcing bar 25 or the like disposed in the inside of the submerged body 0, an anchor bolt 29 or the like located in the submerged body 20 is integrated. The rigid body 1 is securely fixed to the pile type pier 10.

That is, in the method for reinforcing a single-column foundation according to the present embodiment, when the stiffener 1 having the submerged body 20 as a prototype is formed around the pile-type pier 10, By excavating the press-fitted submerged body 20 by underwater excavation or the like, it is possible to excavate around the pile-type pier 10 without an operator, so that workability and safety considerations are significantly reduced, Also, even if the groundwater flows out, the reinforcement work of the pile-type pier 10 itself is not hindered.

Further, a ready-made PC pile or the like is used for the pile type pier 1.
Even if it is used as it is, it is possible to meet the revised seismic standards if it is reinforced with the method of reinforcing a single-column foundation according to the present embodiment. Can be.

The stiffener 1 formed around the pile-type pier 10 is integrated with the pile-type pier 10, so that the original function of increasing the bending rigidity of the pile-type pier 10 is further improved. Its reliability can also be improved.
Further, it can also have a footing function of transmitting the load transmitted from above to the ground in a reduced manner.

The stiffener 1 formed around the pile-type pier 10 includes a submerged body 20 which is constructed by a plurality of segment pieces 22 and which is entirely pressed into the ground around the pile-type pier 10. Since the prototype is used, the stiffener 1 can be formed around the already provided pile type pier 10 as in the first embodiment.

It should be noted that the present invention is not limited to the above embodiment, and various changes can be made without departing from the gist of the present invention. For example, the pile type pier 10 of the present embodiment
Since not only the foundation but also the pier is used, only a part of the submerged body 20 composed of the plurality of segment pieces 22 is pressed into the ground around the pile-type pier 10 to provide one supplement. The rigid body 1 can simultaneously reinforce the pier and the foundation.

Further, the pile type pier 10 of the present embodiment is assembled from a ready-made PC well.
It may be a cast-in-place concrete pile.

Further, as shown in FIG. 15, the above-mentioned work by the method for reinforcing a single-column foundation according to the present embodiment can be carried out as a floating work on a lake or a river. At this time, construction is performed from a ship, a pier, a Tsukishima island, etc., but a reaction force for press-fitting the submerged body 20 constituted by the plurality of segment pieces 22 is also applied to the pier portion of the pile-type pier 10. Further, the buried body 20 that has been press-fitted is removed after the construction is completed.

[0039]

According to the method for reinforcing a single-column foundation according to the present invention, when a stiffening body having a sunk body as a prototype is formed around the single-column foundation, the sunk body pressed into the ground around the single-column foundation is removed. By excavating underwater, etc., it is possible to excavate deeply around the foundation without entering by workers, so workability and safety considerations are significantly reduced. Reinforcement of the pillar foundation itself is not hindered.

Further, even if an off-the-shelf PC pile or the like is used as a single-column foundation as it is, if the reinforcing method of the single-column foundation of the present invention is used, the revised seismic standard can be satisfied. Existing PC piles can be used effectively.

Further, the stiffener formed around the single-column foundation is integrated with the single-column foundation, whereby the original function of increasing the bending rigidity of the single-column foundation is further improved, and its reliability is improved. Can also be improved. Further, it can also have a footing function of transmitting the load transmitted from above to the ground in a reduced manner.

Further, the stiffening body formed around the single-column foundation is composed of a plurality of segment pieces, and the stiffened body, which is entirely or partially pressed into the ground around the single-column foundation, is used as its original model. Therefore, it is possible to form a stiffener also around the already provided single-column foundation.

Even if the single-column foundation is a pile-type pier, the reinforcement work itself is not hindered from the above. Furthermore, since a PC pile or the like used for a single-column foundation also serves as a pier as well as a foundation, a single stiffener can simultaneously reinforce the pier and the foundation. Further, according to the method for reinforcing a single-column foundation of the present invention, the above works can be carried out as floating works on lakes and rivers.

[Brief description of the drawings]

FIG. 1 is a view showing a pile type pier reinforced by a method for reinforcing a single-column foundation according to the present invention.

FIG. 2 is a view showing a part of a procedure of reinforcing an already installed foundation portion of a pile type pier by a method for reinforcing a single-column foundation according to the present invention.

FIG. 3 is a diagram showing a part of a procedure for reinforcing a foundation part of an already installed pile type pier by the method for reinforcing a single-column foundation according to the present invention.

FIG. 4 is a diagram showing a part of a procedure for reinforcing a foundation part of a pile type pier already installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 5 is a view showing a part of a procedure for reinforcing an already installed foundation of a pile type pier by the method for reinforcing a single-column foundation according to the present invention.

FIG. 6 is a view showing a part of a procedure for reinforcing a foundation part of a pile type pier already installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 7 is a view showing a part of a procedure for reinforcing a foundation portion of a pile type pier already installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 8 is a view showing a part of a procedure for reinforcing a foundation part of a pile type pier already installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 9 is a perspective view showing a segment piece constituting a submerged body used in the method for reinforcing a single-column foundation according to the present invention.

FIG. 10 is a perspective view showing a submerged body used in the method for reinforcing a single-column foundation according to the present invention.

FIG. 11 is a view showing a part of a procedure for reinforcing a foundation portion of a pile type pier to be installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 12 is a view showing a part of a procedure for reinforcing a foundation portion of a pile type pier to be installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 13 is a diagram showing a part of a procedure for reinforcing a foundation portion of a pile type pier to be installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 14 is a diagram showing a part of a procedure for reinforcing a foundation portion of a pile type pier to be installed by the method for reinforcing a single-column foundation according to the present invention.

FIG. 15 is a diagram showing an example in which the method for reinforcing a single-column foundation of the present invention is implemented as underwater work.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Stiffening body 10 Pile type pier 20 Submerged body 22 Segment piece

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Mitsukami Murakami 19th floor of Kanie-shindenji, Kanie-cho, Kaifu-gun, Aichi Prefecture Inside Kato Construction Co., Ltd. 6100 Nippon Steel Tube Light Steel Co., Ltd.

Claims (5)

[Claims] 1. A submerged body which is composed of a plurality of segment pieces and which is entirely or partially pressed into the ground around a single-column foundation is used as a prototype of a stiffening body for increasing the bending rigidity of the single-column foundation. A method of reinforcing a single-column foundation. 2. The method for reinforcing a single-column foundation according to claim 1, wherein the stiffener is integrated with the single-column foundation. 3. The method for reinforcing a single-column foundation according to claim 1 or 2, wherein the single-column foundation is an existing one. 4. The method for reinforcing a single-column foundation according to claim 1, wherein the single-column foundation is a pile-type pier. 5. The method for reinforcing a single-column foundation according to any one of claims 1 to 4, wherein the method is performed as a floating construction, and the submerged body in the underwater portion is removed after the construction. Reinforcement method.