JPS60242224A - Construction of pile foundation reinforced against horizontal force - Google Patents

Abstract

PURPOSE:To raise the bearing capacity of the pile foundation by a method in which a cylindrical casing designed to close the aperture between the tip portion and a hollow pile on the upper periphery of the pile is driven into the ground, and concrete is placed into the upper space of the pile and the casing or the footing. CONSTITUTION:A cylindrical casing 4 provided with a partial bottom 3 to close the aperture between the tip portion and a hollow pile 1 erected into the ground on the upper periphery of the pile 1 is erected into the ground. A closing material 7 is set in the pile 1, concrete 9 is placed into the casing 4, and then concrete is placed for the footing 12.

Description

[Detailed Description of the Invention] This invention relates to a method of constructing a pile foundation reinforced against horizontal forces, and its purpose is to sufficiently reinforce the required length of the upper part of the pile into the ground so as to sufficiently withstand horizontal forces. Moreover, concrete is poured into the hollow part and the casing together, and footing concrete is further poured to improve construction efficiency.

Most of the damage caused by earthquakes to piles occurs in the upper part of the pile, and reinforcing the pile against horizontal forces depends on how effectively the upper part of the pile can be reinforced.

In addition, anchor reinforcing bars have conventionally been installed in the pile cap to secure the pile cap to the footing, but this is sometimes insufficient when considering the bending moment at the top of the pile caused by pull-out force and horizontal force. Furthermore, cutting off the upper part of a prestressed concrete pile causes the prestress to drop, which becomes more of a problem.

Therefore, structures have been developed in which a casing or a steel pipe is fitted around the outer circumference of the pile head in advance or afterward to reinforce the pile head or the upper part of the pile.
There are methods shown in Japanese Patent Publication No. 5 and Japanese Patent Publication No. 48-14086.

By the way, in the case shown in the former publication, only the joint of the pile head is reinforced, and the short steel pipe does not penetrate into the ground and has no reinforcing effect on the pile material, and furthermore, filler is filled between the pipe and the casing first. This increases construction time.

In addition, in the case described in the latter publication, the casing is driven first, so there is a risk of dirt entering the casing and damaging the casing, and there is also a risk that the casing may move during pile driving. Furthermore, it is difficult to discharge the earth and sand inside the casing.

The present invention was developed to solve the above-mentioned conventional problems, and details thereof will be explained below with reference to illustrated embodiments.

First, a hollow pile 1 with an open top is erected into the ground at a desired position by driving or the like. Next, using the pile 1 as a guide, a cylindrical casing 4 with a partial bottom 3 is erected into the ground on the outer periphery of the upper part of the pile where horizontal force is large, so that the tip closes the gap between the pile and the pile. . The length of the casing should be approximately 3 to 8 times the diameter of the pile, and should be selected depending on the ground and pile material. Further, in this case, an excavated hole 2 may be provided around the circumference of the pile 1 to facilitate erection.

Furthermore, in order to increase the reinforcing effect of the pile head, a gusset plate 5 is attached to the outer periphery of the casing 4, and reinforcing material 6 of an underground beam may be attached. A plugging material 7 is placed inside the pile,
Concrete 9 is placed inside the pile 1 and the casing 4 at the same time. Further, a plate 8 may be provided at the top of the pile, and then the base plate 11 of the steel column 10 may be superimposed on the plate 8 and connected with bolts and nuts. Next, concrete for the footing portion 12 is poured. FIGS. 4 and 5 show other embodiments of the footing part. 4M shows an example in which the casing 4 is raised up to the top of the footing part 12, and FIG. Raise,
In both cases, the base plate 11 of the steel column 10 is installed on the footing part 12. Figures 6 and 7
The figure shows a case where the underground beam has an RC structure, and the reinforcing bars 14 of the underground beam are placed to penetrate the casing 4. The plug 7 is suspended by a chain 16 from a mounting rod 15 inserted into the upper part of the casing 4. By providing a plurality of insertion holes for the mounting rod 15, the height of the plug can be adjusted. In Figures 8 and 9, the underground beams are SRC.
In the case of a structure, an angle member 17 that becomes the upper and lower chord members of the lattice beam is attached to the gusset plate 5 that is welded and protrudes from the casing 4.
is installed.

This invention has the above-mentioned structure, and a cylindrical casing is built in the ground at the outer periphery of the upper part of the pile where the horizontal force of a hollow pile with an open top is large, and concrete is placed inside the hollow of the upper part of the pile and inside the casing together with the footing. Since it is cast into one piece, construction is completed in one step, and the ground around the top of the pile is consolidated, resulting in a significant improvement in bearing strength. In addition, since the concrete is placed deeper inside the pile than the bottom end of the casing, there are no sudden changes in the cross section, and there is less stress concentration, so the resistance to horizontal forces is reasonable. Furthermore, since the casing is erected using the piles as guides after the piles are erected, there is no risk of damage to the casing, and there is no fear of the casing moving, making it easy to center the piles and the casing.

[Brief explanation of drawings]

Figures 1, 2 and 3 are longitudinal sectional views of the construction process, Figures 4 and 5 are longitudinal sectional views of other embodiments, and Figures 6, 7, 8 and 9. The figures are a longitudinal sectional view and a transverse sectional view showing different embodiments of the casing part. 1. Pile, 2. Excavation hole, 3. Bottom, 4I. Casing, 5. Gusset plate, 6. Reinforcement material, 7. Closing material, 8. Plate, 9. Concrete 4. 10... Steel column, 11... Base plate, 12
・・Footing part 13・・Reinforcement bar, 14・・Reinforcement bar, 15・
・Mounting rod, 16. Chain, 17. Angle material. Figure 6 Figure 7 Figure 8 Figure 9 Procedural amendment filed October 30, 1980 Manabu Shiga, Commissioner of the Patent Office 2 Title of invention Construction method for pile foundations reinforced against horizontal forces 3 Relationship with the case of the person making the amendment Patent applicant Address Name Tomoe Gumi Iron Works Co., Ltd. 4, Agent Name Shadow Akasaka Telephone (586) 8741 6-5-21 Akasaka, Minato-ku, Tokyo (586) 8741 As shown in the attached drawings Print all figures. (No change in content) Procedural amendment December 13, 1980 Patent Application No. 202299 2, Title of invention Construction method of pile foundation with reinforcement against horizontal force 3, Person making amendment case and Relationship of Patent Applicant Address Tomoe Gumi Iron Works Co., Ltd.Name 5 Date of Amendment Order From '41 Showa Year Month Day (Delivery Date) Specification 1 Title of Invention Construction of Pile Foundation Reinforced against Horizontal Force Law 2, Claims (]) A hollow pile with an open top is erected at a desired position, and then, using the pile as a guide, the tip is placed in the gap between the pile and the upper outer periphery where horizontal force is large. A cylindrical casing is erected in the ground so as to close the cylindrical casing, and connecting hardware is protruded from the cylindrical casing, and the inside of the hollow above the pile above the closing material located below the cylindrical casing, the inside of the casing, and A construction method for pile foundations reinforced against horizontal forces, characterized by pouring concrete in the footings and making them integral. (2) A hollow pile with an open top is erected at the desired position, and then the pile is guided by a cylindrical shape whose tip is placed on the outer periphery of the upper part of the pile where horizontal force is large, closing the gap between the pile and the pile. A casing is built into the ground, a column is connected on top of the cylindrical casing, and concrete is poured in the hollow above the pile above the closing material located below the cylindrical casing, inside the casing, and at the footing. A construction method for pile foundations that is reinforced against horizontal forces and is characterized by being integrated into one piece. (3) A hollow pile with an open top is erected at the desired position, and then the pile is guided by a cylindrical shape whose tip is placed on the outer periphery of the upper part of the pile where horizontal forces are most likely to affect the pile. The casing is built into the ground, the reinforcing bars of the underground beam and the anchor reinforcing bars are connected to the connecting fittings protruding from the cylindrical casing, and the hollow part above the pile above the closing material located below the cylindrical casing. A method of constructing a pile foundation reinforced against horizontal forces, which is characterized by pouring concrete inside the casing and the footing to make it integral. 3. Detailed Description of the Invention The present invention relates to a method of constructing a pile foundation reinforced against horizontal forces. The object is to improve construction efficiency by pouring concrete into the casing and integrating it with the footing using connecting hardware, or by connecting the casing and columns and integrating them with the footing. Conventionally, anchor reinforcing bars are installed to secure the pile head to the footing, but this may be insufficient when considering the bending moment of the pile caused by pull-out force and horizontal force. Then, the prestress decreases, which becomes more of a problem. Therefore, structures have been developed in which a casing or a steel pipe is fitted around the outer circumference of the pile head in advance or afterward to reinforce the pile head or the upper part of the pile.
There are methods shown in Japanese Patent Publication No. 5 and Japanese Patent Publication No. 48-14086. By the way, in the case shown in the former publication, only the joint of the pile head is reinforced, and the short steel pipe does not penetrate into the ground and has no reinforcing effect on the pile material, and furthermore, filler is filled between the pipe and the casing first. This increases construction time. Further, in the case shown in the latter publication, the casing is driven in first, so there is a risk that earth and sand may enter the casing and damage the casing, and there is also a risk that the casing may move during pile driving. Furthermore, it is difficult to discharge the earth and sand inside the casing. This invention has been developed to solve the above-mentioned conventional problems and to securely secure the foundation by providing a connecting hardware protruding from the casing.The details will be explained below with reference to the illustrated embodiments. First, a hollow pile 1 with an open top is erected into the ground at a desired position by driving or the like. Next, using the pile 1 as a guide, a cylindrical casing 4 with a partial bottom 3 is erected into the ground on the outer periphery of the upper part of the pile where horizontal force is large, so that the tip closes the gap between the pile and the pile. . The length of the casing should be approximately 3 to 8 times the diameter of the pile, and should be selected depending on the ground and pile material. Furthermore, in order to increase the reinforcing effect of the pile head, a connecting hardware 5 such as a gusset plate is provided protruding from the outer periphery of the casing 4, and a reinforcing material 6 for the underground beam is attached. A plugging material 7 is placed inside the pile, and concrete 9 is placed inside the pile 1 and the casing 4 together. Further, a plate 8 may be provided at the top of the pile, and then the base plate 11 of the steel column 10 may be superimposed on the plate 8 and connected with bolts and nuts. Next, concrete for the footing portion 12 is poured. Figures 4 and 5
The figures show other embodiments of the footing part, and Fig. 4 shows an example in which the casing 4 is raised to the top of the footing part 12, and Fig. 5 shows a reinforcing bar 13 raised from the connecting hardware 5,
In both cases, the base plate 11 of the steel column 10 is installed on the footing part 12. Figures 6 and 7
The figure shows mounting rod 1 with plugging material 7 inserted into the upper part of casing 4.
5 is shown suspended by a chain 16. By providing a plurality of insertion holes for the mounting rod 15, the height of the plug can be adjusted. Further, angle members 17 that serve as upper and lower chord members of the lattice beam are attached to the connecting fitting 5, and in this case, the underground beam can be made into an SRC structure. This invention has the above-mentioned structure, and a cylindrical casing is built in the ground at the outer periphery of the upper part of the pile where the horizontal force of a hollow pile with an open top is large, and concrete is placed inside the hollow of the upper part of the pile and inside the casing together with the footing. Since it is cast into one piece, construction is completed in one step, and the ground around the outer periphery of the pile head is consolidated, resulting in a significant improvement in bearing strength. In addition, since the concrete is placed deeper inside the pile than the bottom end of the casing, there are no sudden changes in the cross section, and there is less stress concentration, so the resistance to horizontal forces is reasonable. Furthermore, since the casing is erected using the piles as guides after the piles are erected, there is no risk of damage to the casing, and there is no fear of the casing moving, making it easy to center the piles and the casing. In particular, in this invention, by providing a connecting hardware protruding from the casing, it is possible to connect the reinforcing bars or steel/bones of the underground beam to ensure the anchorage of the foundation. It is also possible to connect the columns directly onto the casing to ensure the integrity of the columns and piles. 4. Brief explanation of the drawings Figures 1, 2 and 3 are longitudinal sectional views of the construction process, Figures 4 and 5 are longitudinal sectional views of other embodiments, and Figures 6 and 7. FIG. 2 is a vertical cross-sectional view and a cross-sectional view showing different embodiments of the casing part. 1. Pile, 3. Bottom, 4. Casing, 5. Connecting hardware, 6. Reinforcement material, 7. Closing material 8.. Plate, 9
... Concrete, 10. Steel column, 11. Base plate, 12. Footing part, 13. Rebar, 14.
・Reinforcement bar, 15.. Mounting rod, 16.. Chain, 17.. Angle material. Soldier 1 Figure Child 2 Figure Ning 4y1 Rod 5 Sides Figure 6 Figure 7

Claims (1)

[Claims] A hollow pile with an open top is erected at the desired position, and then
Using the pile as a guide, a cylindrical casing with its tip that closes the gap between the pile and the pile is built into the ground around the outer periphery of the upper part of the pile, where horizontal forces have a large effect, and then the cylindrical casing is placed below the casing. A pile foundation reinforced against horizontal force, characterized by pouring concrete into the hollow of the upper part of the pile above the plugging material and inside the casing, and pouring concrete in the footing part to form an integrated structure. Construction method.