JP6616180B2 - Construction method of foundation pile with reinforced pile head - Google Patents
Construction method of foundation pile with reinforced pile head Download PDFInfo
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- JP6616180B2 JP6616180B2 JP2015252610A JP2015252610A JP6616180B2 JP 6616180 B2 JP6616180 B2 JP 6616180B2 JP 2015252610 A JP2015252610 A JP 2015252610A JP 2015252610 A JP2015252610 A JP 2015252610A JP 6616180 B2 JP6616180 B2 JP 6616180B2
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- 230000003014 reinforcing effect Effects 0.000 claims description 78
- 238000000034 method Methods 0.000 claims description 63
- 239000004567 concrete Substances 0.000 claims description 45
- 230000000149 penetrating effect Effects 0.000 claims description 30
- 230000002787 reinforcement Effects 0.000 claims description 21
- 239000000463 material Substances 0.000 claims description 16
- 239000004576 sand Substances 0.000 claims description 15
- 229910000831 Steel Inorganic materials 0.000 description 19
- 239000010959 steel Substances 0.000 description 19
- 230000002093 peripheral effect Effects 0.000 description 13
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- 230000035515 penetration Effects 0.000 description 9
- 239000002184 metal Substances 0.000 description 6
- 238000003466 welding Methods 0.000 description 6
- 238000005452 bending Methods 0.000 description 5
- 238000009412 basement excavation Methods 0.000 description 4
- 210000003205 muscle Anatomy 0.000 description 4
- 239000003673 groundwater Substances 0.000 description 3
- 239000004570 mortar (masonry) Substances 0.000 description 3
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 3
- 238000006073 displacement reaction Methods 0.000 description 2
- 239000011150 reinforced concrete Substances 0.000 description 2
- 238000007711 solidification Methods 0.000 description 2
- 230000008023 solidification Effects 0.000 description 2
- 229910001294 Reinforcing steel Inorganic materials 0.000 description 1
- 239000004568 cement Substances 0.000 description 1
- 238000012790 confirmation Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005553 drilling Methods 0.000 description 1
- 239000008267 milk Substances 0.000 description 1
- 210000004080 milk Anatomy 0.000 description 1
- 235000013336 milk Nutrition 0.000 description 1
- 238000011378 penetrating method Methods 0.000 description 1
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- Piles And Underground Anchors (AREA)
- Placing Or Removing Of Piles Or Sheet Piles, Or Accessories Thereof (AREA)
Description
本発明は、上部構造物の基礎となる基礎杭の杭頭部を補強した基礎杭の構築方法に関する。 The present invention relates to a method for constructing a foundation pile in which a pile head of a foundation pile serving as a foundation of an upper structure is reinforced.
阪神淡路大震災や東日本大震災では、大きな地震力を受けて建築物等の基礎杭が損傷して建築物等が倒壊したり傾いたりするなどの事故が発生した。各種機関の調査によると、これらの事故の大部分は杭頭部の損傷により生じたことが判明している。杭頭部(杭上端付近及び杭頭とフーチングの接合部を含む)の強度が不足していたり、設計で想定した以上の地震力を受けていたりしたことが原因とされている。 In the Great Hanshin-Awaji Earthquake and the Great East Japan Earthquake, there were accidents such as the foundation piles of buildings were damaged by the great earthquake force, and the buildings collapsed or tilted. According to surveys by various organizations, it has been found that most of these accidents were caused by pile head damage. The cause is that the strength of the pile head (including the vicinity of the top of the pile and the joint between the pile head and the footing) is insufficient, or that the seismic force is higher than expected in the design.
一方、近年各種杭工法の開発がなされ、従来よりも大きな鉛直支持力を持つ杭工法が多数開発されている。ところが、杭に作用する鉛直荷重にほぼ比例して水平荷重も増大するため、設計上杭頭部の大きな曲げモーメントに対応できないことがある。その結果、基礎杭が有する大きな鉛直支持力を有効に活用できない場合がある。特に杭頭付近の地盤が軟弱な場合は、この傾向が強いことが判明している。 On the other hand, various pile construction methods have been developed in recent years, and many pile construction methods having a greater vertical support force than before have been developed. However, since the horizontal load also increases in proportion to the vertical load acting on the pile, it may not be able to cope with a large bending moment of the pile head by design. As a result, the large vertical bearing force of the foundation pile may not be used effectively. It has been found that this tendency is particularly strong when the ground near the pile head is soft.
以上のようなことから杭頭部の補強技術について種々提案されている。例えば、鋼管杭よりも大径の筒状ケーシングを利用する施工方法が提案されている(特許文献1参照)。この施工方法では、まず筒状ケーシングを地中に貫入させてから筒状ケーシングの内側の土砂を掘削し、筒状ケーシング内部に空間を形成し、次いでこの空間の中央に鋼管杭を配置し、該鋼管杭を地中に回転貫入させ、次いで鋼管杭の外周面と筒状ケーシングの内周面との間に鉄筋を挿入し、次いで鋼管杭の外周面と筒状ケーシングの内周面との間にコンクリートを打設し、この後筒状ケーシングを地中から引き抜くことにより、杭頭部を鉄筋コンクリートで補強している。 In view of the above, various techniques for reinforcing the pile head have been proposed. For example, a construction method using a cylindrical casing having a diameter larger than that of a steel pipe pile has been proposed (see Patent Document 1). In this construction method, first, the cylindrical casing penetrates into the ground and then excavates the earth and sand inside the cylindrical casing, forming a space inside the cylindrical casing, and then placing a steel pipe pile in the center of this space, The steel pipe pile is rotated and penetrated into the ground, then a reinforcing bar is inserted between the outer peripheral surface of the steel pipe pile and the inner peripheral surface of the cylindrical casing, and then the outer peripheral surface of the steel pipe pile and the inner peripheral surface of the cylindrical casing are Concrete is laid in between, and then the cylindrical casing is pulled out from the ground to reinforce the pile head with reinforced concrete.
また、別の施工方法として、地盤を拡大掘削する外枠体と、鋼管杭の杭芯をヤットコの回転中心に略一致させた状態で保持するガイドとを備えるヤットコを利用する施工方法も提案されている(特許文献2参照)。この施工方法では、まず鋼管杭の杭芯をヤットコの回転中心に略一致させて状態で保持し、次いで鋼管杭を地中に埋設するとともに外枠体により鋼管杭の周辺を拡大掘削し、この後ヤットコを引き上げ、拡大掘削した部分に地盤改良材を打設することにより、鋼管杭の杭頭部を地盤改良材で補強している。 As another construction method, a construction method using a Yatco that includes an outer frame body that expands the ground and a guide that holds the pile core of the steel pipe pile substantially in line with the rotation center of the Yatco is also proposed. (See Patent Document 2). In this construction method, the pile core of the steel pipe pile is first held approximately in line with the center of rotation of the Yatco, then the steel pipe pile is buried in the ground and the outer periphery of the steel pipe pile is expanded and excavated. The pile head of the steel pipe pile is reinforced with the ground improvement material by pulling up the Yatco and placing a ground improvement material in the expanded excavated part.
前者の施工方法では、ケーシング内の掘削作業に杭打機とは別の重機(クレーンとハンマーグラブ等の管内掘削機)が必要である上に、掘削残土が発生する課題がある。後者の施工方法では、掘削残土が発生しないものの、地盤改良材(実際にはセメントミルクやコンクリート)の中に鉄筋籠を入れることができないため、杭頭に大きな曲げモーメントが作用する地震時に改良体にひび割れが生じ、大きな補強効果が得られないという課題がある。 In the former construction method, a heavy machine (in-pipe excavator such as a crane and a hammer grab) different from the pile driving machine is required for excavation work in the casing, and there is a problem that residual excavation soil is generated. In the latter construction method, no excavated soil is generated, but reinforcing rods cannot be placed in the ground improvement material (actually, cement milk or concrete), so the improved body during an earthquake where a large bending moment acts on the pile head. There is a problem that cracks occur and a large reinforcing effect cannot be obtained.
本発明は杭打機とは別の重機を必要とせず、掘削残土が発生せず、基礎杭の杭頭部を効果的に補強することが可能な基礎杭の構築方法を提供することを目的とする。 It is an object of the present invention to provide a foundation pile construction method that does not require a heavy machine different from a pile driver, does not generate excavation residual soil, and can effectively reinforce the pile head of the foundation pile. And
本発明の請求項1に記載の基礎杭の構築方法は、基礎杭本体の杭頭部外周に鉄筋入り補強体を構築して、杭頭部の水平抵抗力を増強する基礎杭の構築方法において、着脱可能な底蓋を有し、内径が前記基礎杭本体の外径よりも大きい円筒状のケーシングを、その下端部が前記補強体の下端予定位置に達するまで地盤に貫入して、前記ケーシングの内部に空間部を確保する工程と、前記底蓋を前記ケーシングから取り外した後、前記ケーシングの前記空間部に前記基礎杭本体を挿入して、該基礎杭本体を支持地盤まで貫入する工程と、前記ケーシングと前記基礎杭本体の前記杭頭部との間に形成された円環状空間部に鉄筋籠を挿入して流動性固化材を充填する工程と、前記ケーシングを地盤から撤去する工程と、を備えることを特徴とする。 The foundation pile construction method according to claim 1 of the present invention is a foundation pile construction method in which a reinforcing body containing a reinforcing bar is constructed on the outer periphery of the pile head of the foundation pile body to enhance the horizontal resistance of the pile head. A cylindrical casing having a detachable bottom lid and having an inner diameter larger than the outer diameter of the foundation pile body, and penetrating into the ground until the lower end of the casing reaches a predetermined lower end position of the reinforcing body. Securing a space part inside, and after removing the bottom lid from the casing, inserting the foundation pile body into the space part of the casing and penetrating the foundation pile body to a supporting ground; A step of inserting a reinforcing rod into an annular space formed between the casing and the pile head of the foundation pile body and filling the fluidized solidification material; and a step of removing the casing from the ground. It is characterized by providing.
本発明の請求項2に記載の基礎杭の構築方法は、基礎杭本体の杭頭部外周に鉄筋入り補強体を構築して、杭頭部の水平抵抗力を増強する基礎杭の構築方法において、前記補強体の下端予定位置に接続金具を固着した前記基礎杭本体を、該接続金具が地表付近に位置するまで地盤に貫入する工程と、内径が前記基礎杭本体の外径よりも大きい円筒状のケーシングを前記基礎杭本体に被せて該ケーシングの下端部を前記接続金具と連結し、前記ケーシングをその頭部が地表に残るように地盤に貫入すると共に前記基礎杭本体を支持地盤まで更に貫入する工程と、前記ケーシングと前記基礎杭本体の前記杭頭部との間に形成された円環状空間に鉄筋籠を挿入して流動性固化材を充填する工程と、前記ケーシングを地盤から撤去する工程と、を備え、前記接続金具は、前記ケーシングの下端部を閉じ、前記ケーシングを地盤に貫入させる際、前記ケーシングの内部に土砂が侵入するのを防止することを特徴とする。 The foundation pile construction method according to claim 2 of the present invention is a foundation pile construction method in which a reinforcing body containing a reinforcing bar is constructed on the outer periphery of the pile head of the foundation pile body to enhance the horizontal resistance of the pile head. A step of penetrating the foundation pile body having a connection fitting fixed to a predetermined lower end position of the reinforcing body into the ground until the connection fitting is located near the ground surface, and a cylinder having an inner diameter larger than the outer diameter of the foundation pile body Covering the foundation pile body with a cylindrical casing, connecting the lower end of the casing to the connection fitting, penetrating the casing into the ground so that its head remains on the ground surface, and further extending the foundation pile body to the support ground A step of penetrating, a step of inserting a reinforcing rod into the annular space formed between the casing and the pile head of the foundation pile body, and filling the fluidized solidifying material; and removing the casing from the ground And comprising the steps of: Serial connection fitting, closes the lower end of the casing, when to penetrate the casing to ground, characterized in that to prevent the internal sediment of the casing from entering.
本発明の請求項3に記載の基礎杭の構築方法は、基礎杭本体の杭頭部外周に鉄筋入り補強体を構築して、杭頭部の水平抵抗力を増強する基礎杭の構築方法において、前記補強体の下端予定位置に係止駒を固着した前記基礎杭本体を、該係止駒が地表付近に位置するまで地盤に貫入する工程と、内径が前記基礎杭本体の外径よりも大きい円筒状の雇い杭を前記基礎杭本体に被せて、該雇い杭の下端部を前記係止駒と着脱自在に連結し、前記雇い杭を介して前記基礎杭本体を更に支持地盤まで貫入する工程と、内径が前記雇い杭の外径より僅かに大きい中心穴を有する円環板を下端部に着脱自在に取付けた、内径が前記雇い杭の外径よりも大きい円筒状のケーシングを前記雇い杭に被せ、該ケーシングを前記補強体の下端予定位置まで地盤に貫入する工程と、前記雇い杭の下端部を前記係止駒から外し、前記雇い杭を地盤から引き抜き、前記ケーシングと前記基礎杭本体の前記杭頭部との間に形成された円環状空間に鉄筋籠を挿入して流動性固化材を充填する工程と、前記ケーシングを地盤から撤去する工程と、を備えてなることを特徴とする。 The foundation pile construction method according to claim 3 of the present invention is a foundation pile construction method in which a reinforcing body containing a reinforcing bar is constructed on the outer periphery of the pile head of the foundation pile body, and the horizontal resistance of the pile head is increased. A step of penetrating the foundation pile main body with a locking piece fixed to a lower end planned position of the reinforcing body until the locking piece is located near the ground surface, and an inner diameter is larger than an outer diameter of the foundation pile main body. Cover the foundation pile body with a large cylindrical employment pile, detachably connect the lower end of the employment pile to the locking piece, and further penetrate the foundation pile body to the support ground via the employment pile. A cylindrical casing having an inner diameter larger than the outer diameter of the hiring pile, wherein an annular plate having a center hole whose inner diameter is slightly larger than the outer diameter of the hiring pile is detachably attached to a lower end portion; Cover the pile and insert the casing into the ground up to the planned lower end of the reinforcement. Removing the lower end portion of the hiring pile from the locking piece, pulling out the hiring pile from the ground, and reinforcing bars in an annular space formed between the casing and the pile head of the foundation pile body. It is characterized by comprising a step of inserting a ridge and filling with a fluidized solidifying material, and a step of removing the casing from the ground.
本発明の請求項4に記載の基礎杭の構築方法は、前記鉄筋籠の複数個所に、内径が基礎杭本体の外径より僅かに大きい案内金具を備えたことを特徴とする。 The foundation pile construction method according to claim 4 of the present invention is characterized in that guide fittings having an inner diameter slightly larger than an outer diameter of the foundation pile main body are provided at a plurality of locations of the reinforcing bar rod.
本発明の請求項5に記載の基礎杭の構築方法は、前記鉄筋籠の主筋を鉄筋コンクリート築造範囲よりも上方に突出させて、該突出部分を基礎コンクリートに埋め込むことを特徴とする。 Method for constructing a foundation pile according to claim 5 of the present invention, said main reinforcement rebar cage is projected above the reinforced concrete construction range, and wherein the embedding protruding portion foundation concrete.
請求項1乃至3に記載の本発明によれば、
1.補強部は基礎杭本体の数倍の剛性と強度が得られるため、水平抵抗が増大して基礎杭本体の水平変位量及曲げモーメントを大幅に(数分の1)低減できる。
2.杭打ち機以外の重機が不必要である。
3.掘削残土が発生しない。
4.ケーシングの無排土貫入により、補強体の外側地盤の密度を高め、その結果土の強度が高まり水平抵抗力が増える。
5.請求項1に記載の発明では基礎杭本体の貫入前に底蓋付きケーシングを先行して貫入するため、請求項2に記載の発明ではケーシングに包まれた状態で基礎杭本体を貫入するため、請求項3は雇い杭に包まれた状態で基礎杭本体を貫入するため、いずれも補強予定区間の基礎杭本体の外周面に泥土が付着せず、基礎杭本体とコンクリートとの一体性を確保できる。
According to the present invention described in claims 1 to 3,
1. Since the reinforced portion has several times the rigidity and strength of the foundation pile body, the horizontal resistance increases, and the horizontal displacement and bending moment of the foundation pile body can be greatly reduced (a fraction).
2. Heavy machinery other than pile driver is unnecessary.
3. No excavated soil is generated.
4). The non-extruded soil penetration of the casing increases the density of the outer ground of the reinforcement, resulting in increased soil strength and increased horizontal resistance.
5. In the invention according to claim 1, in order to penetrate the casing with the bottom lid prior to penetration of the foundation pile body, in order to penetrate the foundation pile body in a state wrapped in the casing in the invention according to claim 2, Since Claim 3 penetrates the foundation pile body in the state wrapped in the hiring pile, mud soil does not adhere to the outer peripheral surface of the foundation pile body in the planned reinforcement section, and ensures the integrity of the foundation pile body and the concrete. it can.
請求項4に記載の本発明によれば、鉄筋籠に案内金具を付けることにより、目視確認ができない地中であっても、基礎杭本体と鉄筋籠を同心状に配置することができる。 According to this invention of Claim 4, even if it is the underground which cannot visually confirm by attaching a guide metal fitting to a reinforcing bar rod, a foundation pile main body and a reinforcing rod rod can be arrange | positioned concentrically.
請求項5に記載の本発明によれば、鉄筋籠を構成する主筋を基礎杭上段から突出させることにより、基礎コンクリート築造時に突出部を呑み込ませることができる。その結果、別途結合用鋼材を設ける場合に較べ、基礎杭と基礎コンクリートの結合の信頼性が増すとともに、結合作業を簡略化できる。 According to this invention of Claim 5, a protrusion can be swallowed at the time of foundation concrete construction by making the main reinforcement which comprises a reinforcing steel rod protrude from the upper stage of a foundation pile. As a result, the reliability of the connection between the foundation pile and the foundation concrete is increased and the connection work can be simplified as compared with the case where a steel material for connection is separately provided.
図1乃至図3に示す、本発明の第1、第2、第3実施例の構築方法で構築された基礎杭は、図10(a)、(b)に示すように、基礎杭本体10と、基礎杭本体10の杭頭部14に流動性固化材としてのコンクリート30を打設してなる鉄筋籠20入りの補強体40を備える。 As shown in FIGS. 10 (a) and 10 (b), the foundation pile constructed by the construction method of the first, second and third embodiments of the present invention shown in FIGS. And the reinforcement body 40 with the reinforcing bar 20 formed by placing concrete 30 as a fluidized solidifying material on the pile head 14 of the foundation pile main body 10 is provided.
図1乃至図3に示す第1、第2、第3実施例の構築方法で使用される、前記基礎杭本体10は、支持地盤までの深さに合わせて複数本の鋼管製の単管を施工現場で連結して所定の長さに構成される。基礎杭本体10は、下から杭頭にかけて下杭、中杭、上杭と呼ぶ。杭長が短い場合には、中杭が不要なので、便宜上中杭を下杭と合わせて下杭と呼ぶ。本実施例では、基礎杭本体10は下杭11と上杭12とを連結してなる。基礎杭本体10の地盤への貫入方法としては、例えば回転貫入法や圧入工法がある。回転貫入法を採用する場合、例えば下杭11の先端部(下端部)付近にねじ込み作用を有する螺旋翼などの羽根が設けられる。上杭12の頭部(杭頭部14)は、鉄筋籠20を被せた後、円筒状のケーシング60との間に形成された円環状空間部70に打設されたコンクリート30に鉄筋籠20と共に埋め込まれる(図1(f)、図2(f)、図3(h)、図10(a)、(b)参照)。これにより、基礎杭本体10の杭頭部14は、鉄筋籠20入りのコンクリート30からなる補強体40と一体化され、高い剛性と曲げ強度をもつて補強される。杭工事終了後、図11に示すように、基礎杭本体10の杭頭部14上にフーチング50が築造され、杭頭部14と接合される。 The foundation pile body 10 used in the construction method of the first, second, and third embodiments shown in FIGS. 1 to 3 is a single pipe made of a plurality of steel pipes according to the depth to the support ground. Connected at the construction site and configured to a predetermined length. The foundation pile main body 10 is called a lower pile, a middle pile, and an upper pile from the bottom to the pile head. When the pile length is short, the middle pile is unnecessary, so for convenience, the middle pile is called the lower pile together with the lower pile. In this embodiment, the foundation pile body 10 is formed by connecting a lower pile 11 and an upper pile 12. As a method for penetrating the foundation pile main body 10 into the ground, there are, for example, a rotation penetrating method and a press fitting method. When adopting the rotary penetration method, for example, a blade such as a spiral wing having a screwing action is provided near the tip (lower end) of the lower pile 11. The head of the upper pile 12 (the pile head 14) is covered with the reinforcing bar rod 20, and then placed on the concrete 30 placed in the annular space 70 formed between the cylindrical casing 60 and the reinforcing bar rod 20. (See FIGS. 1 (f), 2 (f), 3 (h), 10 (a), and 10 (b)). Thereby, the pile head 14 of the foundation pile main body 10 is integrated with the reinforcement body 40 which consists of the concrete 30 containing the reinforcing bar 20, and is reinforced with high rigidity and bending strength. After the completion of the pile construction, as shown in FIG. 11, the footing 50 is built on the pile head 14 of the foundation pile body 10 and joined to the pile head 14.
図1乃至図3に示す第1、第2、第3実施例の構築方法で使用される、前記円筒状のケーシング60は、例えば、前記基礎杭本体10の外径の2倍乃至4倍の内径を有する鋼管などから形成される。ケーシング60は、その頭部(上端部)が地表から露出した状態で残り、その下端部が補強体40(図10(a)、(b)等参照)の下端予定位置(基礎杭の杭頭部補強予定深度)に達して地盤に貫入するように、軸線方向の寸法が設定される。本発明の構築方法を適用する地盤は軟弱地盤であるため、杭打機で若干押込み力を付加することでケーシング60は地盤に貫入するが、貫入しにくい場合は、ケーシング60に、例えば図4(a)乃至(d)に示すように、地盤への貫入抵抗を減らすため、その下端部に掘削刃61や、その下端部外周面に螺旋翼などの羽根62を取り付けてもよい。図1に示す第1実施例で使用するケーシング60には、その下端部に底蓋63(図1(a)参照)が例えばワイヤなどを介して着脱自在に取付けられる。底蓋63はケーシング60の貫入時にケーシング60の下端開口部を閉じて、ケーシング60の内部に土砂が侵入するのを防止する。図3に示す第3実施例で使用されるケーシング60には、その下端部に内径が雇い杭90(図8参照)の外径よりも僅かに大きい中心穴65を有する円環板64(図9(a)、(b)参照)が着脱自在に取付けられる。円環板64は、例えばケーシング60を一方向に回転させたときには、ケーシング60の下端部との係止状態が維持されてケーシング60と一体となり、ケーシング60と共に地盤に貫入するが、ケーシング60を反対の他方向に回転させたときには、ケーシング60の下端部との係止状態が解除されてケーシングから外れ、地盤内に残る。土砂の侵入を防止するためには中心穴65の内径と雇い杭90の外径との径差は3mm以下が望ましい。ただし、泥土は僅かな隙間からでも少し侵入し、雇い杭90の外面に付着する。 The cylindrical casing 60 used in the construction methods of the first, second, and third embodiments shown in FIGS. 1 to 3 is, for example, twice to four times the outer diameter of the foundation pile body 10. It is formed from a steel pipe having an inner diameter. The casing 60 remains with its head portion (upper end portion) exposed from the ground surface, and its lower end portion is a planned lower end position of the reinforcing body 40 (see FIGS. 10A, 10B, etc.). The axial dimension is set so as to reach the part reinforcement planned depth) and penetrate into the ground. Since the ground to which the construction method of the present invention is applied is soft ground, the casing 60 penetrates into the ground by applying a slight pushing force with a pile driving machine. As shown to (a) thru | or (d), in order to reduce the penetration resistance to the ground, you may attach the excavation blade 61 to the lower end part, and the blade | wings 62, such as a spiral blade, to the outer peripheral surface of the lower end part. A bottom cover 63 (see FIG. 1A) is detachably attached to a lower end portion of the casing 60 used in the first embodiment shown in FIG. 1 through, for example, a wire. The bottom lid 63 closes the lower end opening of the casing 60 when the casing 60 penetrates, and prevents earth and sand from entering the casing 60. The casing 60 used in the third embodiment shown in FIG. 3 has an annular plate 64 (FIG. 3) having a central hole 65 at its lower end that is slightly larger than the outer diameter of the pile 90 (see FIG. 8). 9 (a), (b)) is detachably attached. For example, when the casing 60 is rotated in one direction, the annular plate 64 is maintained in a locked state with the lower end portion of the casing 60 so as to be integrated with the casing 60 and penetrates into the ground together with the casing 60. When it is rotated in the opposite direction, the locked state with the lower end portion of the casing 60 is released and the casing 60 is detached from the casing and remains in the ground. In order to prevent intrusion of earth and sand, the difference in diameter between the inner diameter of the center hole 65 and the outer diameter of the hiring pile 90 is desirably 3 mm or less. However, the mud enters slightly from a slight gap and adheres to the outer surface of the hired pile 90.
図1乃至図3に示す第1、第2、第3実施例の構築方法で使用される、前記鉄筋籠20について、図5(a)、(b)を参照して説明する。鉄筋籠20は、例えば、複数本の軸線方向に延びる棒状の主筋21と水平方向に延びるリング状のフープ筋22とから円筒籠状に形成される。主筋21はフープ筋22の内側にその周方向に沿って適宜間隔をあけて配置され、フープ筋22は主筋21の軸線方向に沿って適宜間隔をあけて配置される。鉄筋籠20の内部には、その軸線方向の適宜個所(図5(b)では下端と上部の2箇所)に、それぞれ基礎杭本体10と鉄筋籠20との軸心を合わせるための案内金具23が配置される。この案内金具23は、基礎杭本体10の外径よりも僅かに大きい内径を有する円環状部材24と、この円環状部材24を鉄筋籠20の中央位置に保持するための、フープ筋22の内側で放射状に延びる複数本の位置保持部材25とから構成され、溶接などにより鉄筋籠20内に固定される。また、各主筋21の突出部分である上端部分21aは、基礎杭本体10の杭頭部14上から延びて突出しており、杭頭部14上にフーチング50(図11参照)を築造する際、フーチング50に呑み込まれ(埋め込まれ)、基礎杭本体10とフーチング50とを連結する。鉄筋籠20の主筋21の上端部分12aをフーチング50に呑み込ませることで、別途結合用鋼材を設ける場合に較べて、基礎杭と基礎コンクリートとの結合の信頼性が増すとともに、結合作業を簡略化できる。 The rebar rod 20 used in the construction methods of the first, second, and third embodiments shown in FIGS. 1 to 3 will be described with reference to FIGS. 5 (a) and 5 (b). The reinforcing bar 20 is formed in a cylindrical bar shape from, for example, a plurality of rod-shaped main bars 21 extending in the axial direction and a ring-shaped hoop bar 22 extending in the horizontal direction. The main muscles 21 are arranged inside the hoop muscles 22 with appropriate intervals along the circumferential direction, and the hoop muscles 22 are arranged with appropriate intervals along the axial direction of the main muscles 21. Inside the reinforcing bar rod 20, guide fittings 23 for aligning the axial centers of the foundation pile main body 10 and the reinforcing bar rod 20 at appropriate locations in the axial direction (two locations at the lower end and the upper portion in FIG. 5 (b)), respectively. Is placed. The guide fitting 23 includes an annular member 24 having an inner diameter slightly larger than the outer diameter of the foundation pile main body 10, and an inner side of the hoop bar 22 for holding the annular member 24 at the center position of the reinforcing bar rod 20. And a plurality of position holding members 25 extending radially, and fixed in the reinforcing bar 20 by welding or the like. Moreover, the upper end part 21a which is a protrusion part of each main reinforcement 21 is extended and protruded from the pile head 14 of the foundation pile main body 10, and when building the footing 50 (refer FIG. 11) on the pile head 14, The foundation pile main body 10 and the footing 50 are connected by being swallowed (embedded) in the footing 50. The upper end portion 12a of the main bar 21 of the reinforcing bar 20 is rubbed into the footing 50, so that the reliability of the connection between the foundation pile and the foundation concrete is increased and the connection work is simplified as compared with the case where a separate steel material is provided. it can.
図2に示す第2実施例の構築方法で使用される、接続金具80について、例えば図6(a)、(b)を参照して説明する。接続金具80は、円環状板からなり、補強体40の下端予定位置となる基礎杭本体10(上杭12)の外周面個所に予め固定されるもので、上杭12が嵌合する中央穴81を有する。接続金具80の上面には、前記ケーシング60の下端部に着脱自在に係止する係止部材82が設けられる。前記ケーシング60は、この係止部材82を介して接続金具80に着脱自在(取外し可能)に連結(接続)することが出来る。 A connection fitting 80 used in the construction method of the second embodiment shown in FIG. 2 will be described with reference to FIGS. 6 (a) and 6 (b), for example. The connection fitting 80 is an annular plate, and is fixed in advance to the outer peripheral surface portion of the foundation pile main body 10 (upper pile 12), which is the lower end planned position of the reinforcing body 40. 81. On the upper surface of the connection fitting 80, a locking member 82 that is detachably locked to the lower end portion of the casing 60 is provided. The casing 60 can be detachably coupled (connected) to the connection fitting 80 via the locking member 82.
図3に示す第3実施例の構築方法で使用される、上杭12及び雇い杭(ヤットコ)90について、例えば図7(a)、(b)と図8を参照して説明する。雇い杭90は、円筒状の鋼管からなり、その内径が基礎杭本体10(上杭12)の外径よりも僅かに大きく、基礎杭本体10(上杭12)に被せられる。上杭12には補強体40の下端予定位置となる外周面の個所に直方体状の鋼片からなる2個の係止駒15が溶接などで予め固定される。雇い杭90には、その下端部の2箇所を逆L字状に切り欠き加工した切欠き部91が設けられ、これら切欠き部91に係止駒15が着脱自在に係止して雇い杭90を上杭12に連結し、雇い杭90に作用する回転トルクや押込み力を上杭12に伝達する。 The upper pile 12 and the hired pile (Yatco) 90 used in the construction method of the third embodiment shown in FIG. 3 will be described with reference to FIGS. 7 (a), 7 (b) and FIG. 8, for example. The hiring pile 90 is made of a cylindrical steel pipe, and the inner diameter thereof is slightly larger than the outer diameter of the foundation pile main body 10 (upper pile 12), and is placed on the foundation pile main body 10 (upper pile 12). Two locking pieces 15 made of a rectangular steel piece are fixed to the upper pile 12 in advance by welding or the like at locations on the outer peripheral surface, which is the planned lower end position of the reinforcing body 40. The hiring pile 90 is provided with a notch portion 91 in which two lower end portions thereof are cut into an inverted L shape, and the locking piece 15 is detachably locked to the notch portion 91 so that the hiring pile is detachable. 90 is connected to the upper pile 12, and the rotational torque and pushing force acting on the hired pile 90 are transmitted to the upper pile 12.
図1(a)乃至(g)を参照して本発明の第1実施例の基礎杭の構築方法について説明する。 A construction method for a foundation pile according to a first embodiment of the present invention will be described with reference to FIGS.
図1(a)を参照してケーシング60を地盤に貫入してケーシング60内に空間部60aを確保する工程について説明する。ケーシング60の先端(下端部)に予め着脱可能に底蓋63を取り付けておく。この取り付けにはワイヤ(図示せず)を使用する。具体的には、ワイヤの一端部分で底蓋63とケーシング60の下端部とを結び付け、ワイヤの他端部分をケーシング60の頭部まで引き出しておく。そして、杭打機に搭載されたモータ(図示せず)によりケーシング60を回転させてケーシング60の下端部が補強体40(図10(a)、(b)等参照)の下端予定位置(基礎杭の杭頭部補強予定深度)に達するまで地盤に貫入する。この貫入後、ケーシング60の頭部(上端部)は地表から露出した状態にあり、土留めの役割を果たし、周囲の土砂がケーシング60の空間部60aに落下するのを防止する。 With reference to Fig.1 (a), the process of penetrating the casing 60 in the ground and ensuring the space part 60a in the casing 60 is demonstrated. A bottom cover 63 is attached in advance to the tip (lower end) of the casing 60 so as to be detachable. A wire (not shown) is used for this attachment. Specifically, the bottom lid 63 and the lower end portion of the casing 60 are connected to each other at one end portion of the wire, and the other end portion of the wire is pulled out to the head portion of the casing 60. And the casing 60 is rotated by a motor (not shown) mounted on the pile driving machine, and the lower end portion of the casing 60 is the lower end expected position (foundation) of the reinforcing body 40 (see FIGS. 10A, 10B, etc.). Penetration into the ground until the pile head reinforcement depth is reached. After this penetration, the head (upper end) of the casing 60 is exposed from the ground surface, serves as a clasp, and prevents surrounding earth and sand from dropping into the space 60 a of the casing 60.
次いで、図1(b)を参照して底蓋63を撤去する工程を説明する。ケーシング60の頭部まで引き出されていたワイヤの他端部分を杭打機で引くことにより、ケーシング60と底蓋63との連結を解除し、底蓋63をケーシング60から撤去する。 Next, a process of removing the bottom lid 63 will be described with reference to FIG. By pulling the other end portion of the wire that has been drawn to the head of the casing 60 with a pile driver, the connection between the casing 60 and the bottom lid 63 is released, and the bottom lid 63 is removed from the casing 60.
次いで、図1(c)を参照して基礎杭本体10をケーシング60の空間部60aに挿入し、地盤に貫入させる工程を説明する。基礎杭本体10のうち下杭11をケーシング60の空間部60aに挿入し、ケーシング60の下端開口部から地盤に貫入する。 Next, the process of inserting the foundation pile body 10 into the space 60a of the casing 60 and penetrating into the ground will be described with reference to FIG. The lower pile 11 of the foundation pile main body 10 is inserted into the space 60 a of the casing 60 and penetrates into the ground from the lower end opening of the casing 60.
次いで、図1(d)を参照して基礎杭本体10をその先端が支持地盤に達するまで貫入する工程を説明する。下杭11の頭部がケーシング60の頭部付近に位置するようになったら下杭11の頭部に上杭12の下端部を溶接等で連結し、さらに基礎杭本体10を地盤に貫入する。次いで、上杭12の頭部がケーシング60の頭部付近に位置するようになったら上杭12の頭部に基礎杭本体10と同径の鋼管からなる雇い杭(図示せず)を着脱自在に連結し、この雇い杭を介して回転力を基礎杭本体10に伝え、基礎杭本体10をその先端が支持地盤に達するまで貫入する。この貫入後、上杭12の頭部から雇い杭を取り外す。 Next, a process of penetrating the foundation pile main body 10 until its tip reaches the supporting ground will be described with reference to FIG. When the head of the lower pile 11 is positioned near the head of the casing 60, the lower end of the upper pile 12 is connected to the head of the lower pile 11 by welding or the like, and the foundation pile main body 10 is further penetrated into the ground. . Next, when the head of the upper pile 12 is positioned near the head of the casing 60, an employment pile (not shown) made of a steel pipe having the same diameter as the foundation pile body 10 can be freely attached to and detached from the head of the upper pile 12. And the rotational force is transmitted to the foundation pile main body 10 through the hired pile, and the foundation pile main body 10 is penetrated until its tip reaches the supporting ground. After this penetration, the hired pile is removed from the head of the upper pile 12.
次いで、図1(e)を参照して鉄筋籠20をケーシング60内に挿入する工程を説明する。杭打機で鉄筋籠20を吊り下げ、ケーシング60の内周と上杭12の外周との間に形成された円環状空間部70内に挿入する。この際、案内金具23の円環状部材24に上杭12が挿通するようにして行う。これにより、鉄筋籠20は上杭12と同軸状に円環状空間部70内に配置される。図1(f)に示す次工程のコンクリート打設まで時間がある場合は、ケーシング60の先端(下端)から地下水が円環状空間部70内に侵入するのを防止するために必要に応じて止水処理(例えば早強モルタルや水ガラスを投入するなどの処理)を施す。 Next, a process of inserting the reinforcing bar 20 into the casing 60 will be described with reference to FIG. The reinforcing bar 20 is suspended by a pile driver and inserted into an annular space 70 formed between the inner periphery of the casing 60 and the outer periphery of the upper pile 12. At this time, the upper pile 12 is inserted into the annular member 24 of the guide fitting 23. Thereby, the reinforcing bar 20 is arranged in the annular space 70 coaxially with the upper pile 12. If there is time until the concrete placement in the next step shown in FIG. 1 (f), stop the groundwater as necessary to prevent the underground water from entering the annular space 70 from the tip (lower end) of the casing 60. Water treatment (for example, treatment such as adding high-strength mortar or water glass) is performed.
次いで、図1(f)を参照してコンクリートを打設する工程を説明する。コンクリートの材料分離を防ぐため、ケーシング60の円環状空間部70内にトレミー管(図示せず)を下して、コンクリート30を下から順に打設し、計画補強体上端高さよりも若干多く投入する。必要に応じて、バイブレータを掛けて締固めをする。鉄筋籠20は、その主筋21の上端部分21aを残してコンクリート30中に埋め込まれる。コンクリート30をケーシング60の円環状空間部70内に打設する際、地表から露出したケーシング60の頭部(上端部)が土留めの役割を果たし、周囲の土砂が円環状空間部70内に落下するのを防止する。 Next, the step of placing concrete will be described with reference to FIG. In order to prevent material separation of the concrete, a tremy pipe (not shown) is lowered into the annular space 70 of the casing 60, and the concrete 30 is placed in order from the bottom, and a little higher than the upper end height of the planned reinforcing body is added. To do. If necessary, tighten with a vibrator. The reinforcing bar 20 is embedded in the concrete 30 leaving the upper end portion 21 a of the main reinforcing bar 21. When the concrete 30 is placed in the annular space 70 of the casing 60, the head (upper end) of the casing 60 exposed from the ground surface plays a role of retaining soil, and the surrounding earth and sand is placed in the annular space 70. Prevent falling.
次いで、図1(g)を参照してケーシング60を地盤から撤去する工程を説明する。コンクリート打設が終了したら、ケーシング60を回転して地盤から引き抜く。このときケーシング60の側壁の厚みに相当する分だけコンクリートが横に広がるため、コンクリート30の上端位置は若干下がる。 Next, the process of removing the casing 60 from the ground will be described with reference to FIG. When the concrete placement is finished, the casing 60 is rotated and pulled out from the ground. At this time, the concrete spreads sideways by an amount corresponding to the thickness of the side wall of the casing 60, so that the upper end position of the concrete 30 is slightly lowered.
以上のようにして基礎杭本体10の杭頭部14に鉄筋籠20入りのコンクリート30からなる補強体40が構築される。杭工事作業終了後、図11に示すように基礎杭本体10の杭頭部14にフーチング50が築造される。この際、杭頭部14から突出する主筋21の上端部分21aがフーチング50に呑み込まれ、フーチング50が杭頭部14と接合される。 As described above, the reinforcing body 40 made of the concrete 30 containing the reinforcing bar 20 is constructed on the pile head 14 of the foundation pile main body 10. After the completion of the pile work, the footing 50 is built on the pile head 14 of the foundation pile body 10 as shown in FIG. At this time, the upper end portion 21 a of the main reinforcement 21 protruding from the pile head 14 is squeezed into the footing 50, and the footing 50 is joined to the pile head 14.
図2(a)乃至(g)を参照して本発明の第2実施例の基礎杭の構築方法について説明する。 A construction method for a foundation pile according to a second embodiment of the present invention will be described with reference to FIGS.
図2(a)を参照して基礎杭本体10のうち下杭11の部分を地盤に貫入する工程を説明する。杭打機に搭載されたモータ(図示せず)により下杭11を回転し、下杭11をその頭部が地表に位置するまで地盤に貫入する。 With reference to Fig.2 (a), the process of penetrating the part of the lower pile 11 among the foundation pile main bodies 10 is demonstrated. The lower pile 11 is rotated by a motor (not shown) mounted on the pile driving machine, and the lower pile 11 penetrates into the ground until its head is located on the ground surface.
次いで、図2(b)を参照して上杭12を接続して基礎杭本体10を更に地盤に貫入する工程を説明する。上杭12にはその外周面の所定高さ位置に予め接続金具80が固定される。具体的には、図2(d)に示すように、接続金具80は、ケーシング60の頭部が地表付近に位置するまで地盤に貫入したとき、基礎杭本体10の先端が支持地盤に達するように、上杭12の外周面に固定される。上杭12の下端部を下杭11の頭部に溶接などで接続した後、杭打機に搭載されたモータ(図示せず)により上杭12を回転し、接続金具80の高さがが地表1m程度になるまで基礎杭本体10を地盤に貫入させる。 Next, a process of connecting the upper pile 12 and further penetrating the foundation pile main body 10 into the ground will be described with reference to FIG. A connection fitting 80 is fixed to the upper pile 12 at a predetermined height position on the outer peripheral surface thereof in advance. Specifically, as shown in FIG. 2 (d), when the connection fitting 80 penetrates into the ground until the head of the casing 60 is located near the ground surface, the tip of the foundation pile body 10 reaches the support ground. The upper pile 12 is fixed to the outer peripheral surface. After connecting the lower end of the upper pile 12 to the head of the lower pile 11 by welding or the like, the upper pile 12 is rotated by a motor (not shown) mounted on the pile driving machine, and the height of the connection fitting 80 is increased. The foundation pile main body 10 is penetrated into the ground until the ground surface becomes about 1 m.
次いで、図2(c)を参照してケーシング60を上杭12に被せて取り付ける工程を説明する。杭打機でケーシング60を上杭12上で吊り下げ、上杭12に被さるようにケーシング60を下して接続金具80に載せ、ケーシング60の下端部を係止部材82(図6(a)、(b)参照)に係止させて接続金具80に着脱自在に接続する。 Next, a process of attaching the casing 60 on the upper pile 12 will be described with reference to FIG. The casing 60 is suspended on the upper pile 12 by a pile driver, the casing 60 is lowered so as to cover the upper pile 12 and placed on the connection fitting 80, and the lower end portion of the casing 60 is attached to the locking member 82 (FIG. 6A). , (B)) and is detachably connected to the connection fitting 80.
次いで、図2(d)を参照してケーシング60を地盤に貫入すると共に基礎杭本体10をその先端が支持地盤に達するまで貫入する工程を説明する。杭打機に搭載されたモータ(図示せず)によりケーシング60を回転すると、ケーシング60が地盤に貫入すると共に、ケーシング60の回転が接続金具80を介して上杭12に伝わり、基礎杭本体10が地盤に更に貫入してその先端が支持地盤に達する。このとき、ケーシング60の下端部(接続金具80)は、補強体40(図10(a)、(b)等参照)の下端予定位置(基礎杭の杭頭部補強予定深度)に達する。ケーシング60の地盤への貫入に際し、接続金具80がケーシング60の下端部を閉じ、ケーシング60内部に土砂が侵入するのを防止する。また、ケーシング60の頭部(上端部)は地表から露出した状態にあり、土留めの役割を果たし、周囲の土砂が円環状空間部70に落下するのを防止する。 Next, a process of penetrating the casing 60 into the ground and penetrating the foundation pile main body 10 until its tip reaches the supporting ground will be described with reference to FIG. When the casing 60 is rotated by a motor (not shown) mounted on the pile driving machine, the casing 60 penetrates into the ground, and the rotation of the casing 60 is transmitted to the upper pile 12 via the connection fitting 80, and the foundation pile main body 10. Penetrates further into the ground, and its tip reaches the supporting ground. At this time, the lower end portion of the casing 60 (connection fitting 80) reaches the planned lower end position (planned pile head reinforcement depth of the foundation pile) of the reinforcing body 40 (see FIGS. 10A and 10B, etc.). When the casing 60 penetrates into the ground, the connection fitting 80 closes the lower end portion of the casing 60 and prevents the earth and sand from entering the casing 60. Further, the head (upper end) of the casing 60 is exposed from the ground surface, serves as a clasp, and prevents surrounding earth and sand from falling into the annular space 70.
次いで、図2(e)を参照して鉄筋籠20をケーシング60内に挿入する工程を説明するが、この工程は上述した図1(e)の工程と同じである。すなわち、杭打機で鉄筋籠20を吊り下げ、円環状空間部70内に挿入し、図2(f)に示す次工程のコンクリート打設まで時間がある場合は、地下水の侵入する防止するために必要に応じて止水処理(例えば早強モルタルや水ガラスを投入するなど)を施す。 Next, a process of inserting the reinforcing bar 20 into the casing 60 will be described with reference to FIG. 2 (e). This process is the same as the process of FIG. 1 (e) described above. That is, in order to prevent the intrusion of groundwater when there is time until the concrete is placed in the next process shown in FIG. If necessary, a water-stopping treatment (for example, adding fast-strength mortar or water glass) is performed.
次いで、図2(f)を参照してコンクリートを打設する工程を説明するが、この工程も上述した図1(f)の工程と同じである。すなわち、円環状空間部70内にトレミー管(図示せず)を下して、コンクリート30を下から順に打設し、必要に応じてバイブレータを掛けて締固めをする。 Next, the process of placing concrete will be described with reference to FIG. 2 (f). This process is also the same as the process of FIG. 1 (f) described above. That is, a tremy pipe (not shown) is lowered into the annular space 70, and the concrete 30 is placed in order from the bottom, and a vibrator is applied and compacted as necessary.
次いで、図2(g)を参照してケーシング60を地盤から撤去する工程を説明する。コンクリート打設が終了したら、ケーシング60の下端部と接続金具80の係止部材82との連結を解除(たとえば逆回転)した後、ケーシング60を回転して地盤から引き抜く。このとき、図1(g)の工程の場合と同様に、ケーシング60の側壁の厚みに相当する分だけコンクリートが横に広がるため、コンクリート30の上端位置は若干下がる。 Next, the process of removing the casing 60 from the ground will be described with reference to FIG. When the concrete placement is finished, the connection between the lower end portion of the casing 60 and the locking member 82 of the connection fitting 80 is released (for example, reverse rotation), and then the casing 60 is rotated and pulled out from the ground. At this time, as in the case of the process of FIG. 1G, the concrete spreads sideways by an amount corresponding to the thickness of the side wall of the casing 60, so the upper end position of the concrete 30 is slightly lowered.
以上のようにして基礎杭本体10の杭頭部14に鉄筋籠20入りのコンクリート30からなる補強体40が構築される。杭工事作業終了後、上述した第1実施例の場合と同様に基礎杭本体10の杭頭部14にフーチング50(図11参照)が築造され、主筋21の上端部分21aがフーチング50に呑み込まれて、フーチング50が杭頭部14と接合される。 As described above, the reinforcing body 40 made of the concrete 30 containing the reinforcing bar 20 is constructed on the pile head 14 of the foundation pile main body 10. After the completion of the pile construction work, a footing 50 (see FIG. 11) is built on the pile head 14 of the foundation pile body 10 in the same manner as in the first embodiment described above, and the upper end portion 21a of the main bar 21 is swallowed into the footing 50. Thus, the footing 50 is joined to the pile head 14.
図3(a)乃至(i)を参照して本発明の第3実施例の基礎杭の構築方法について説明する。 A construction method of a foundation pile according to a third embodiment of the present invention will be described with reference to FIGS.
図3(a)を参照して基礎杭本体10のうち下杭11の部分を地盤に貫入する工程を説明する。杭打機に搭載されたモータ(図示せず)により下杭11を回転し、図3(b)に示す次工程で下杭11の頭部に上杭12の下端部を溶接等で固着する作業が地表で行える高さまで基礎杭本体10を地盤に貫入する。 With reference to Fig.3 (a), the process of penetrating the part of the lower pile 11 among the foundation pile main bodies 10 is demonstrated. The lower pile 11 is rotated by a motor (not shown) mounted on the pile driving machine, and the lower end of the upper pile 12 is fixed to the head of the lower pile 11 by welding or the like in the next step shown in FIG. The foundation pile body 10 is penetrated into the ground to a height at which work can be performed on the ground surface.
次いで、図3(b)を参照して係止駒15が固定された、基礎杭本体10の上杭12の部分を下杭11に接続し、係止駒15の高さが地表から高さ1m程度になるまで基礎杭本体10を貫入させ、雇い杭90を上杭12に被せる工程を説明する。先ず、地盤に貫入された下杭11の頭部に上杭12の下端部を溶接等で接続した後、杭打機に搭載されたモータ(図示せず)により上杭12を回転し、係止駒15の高さが地表1m程度になるまで基礎杭本体10を地盤に貫入させる。次いで、杭打機で雇い杭90を吊り下げ、上杭12に被せ、雇い杭90の下端部の切欠き部91に上杭12に固定した係止駒15を係止し(図8参照)、雇い杭90を上杭12に接続する。 Next, with reference to FIG. 3B, the upper pile 12 portion of the foundation pile body 10 to which the locking piece 15 is fixed is connected to the lower pile 11, and the height of the locking piece 15 is higher than the ground surface. The process of making the foundation pile main body 10 penetrate until it becomes about 1 m and covering the hired pile 90 on the upper pile 12 will be described. First, after connecting the lower end of the upper pile 12 to the head of the lower pile 11 penetrated into the ground by welding or the like, the upper pile 12 is rotated by a motor (not shown) mounted on the pile driver. The foundation pile main body 10 is penetrated into the ground until the height of the stop piece 15 reaches about 1 m on the ground surface. Next, the hiring pile 90 is suspended by a pile driver and covered with the upper pile 12, and the locking piece 15 fixed to the upper pile 12 is locked to the notch 91 at the lower end of the hiring pile 90 (see FIG. 8). The hiring pile 90 is connected to the upper pile 12.
次いで、図3(c)を参照して基礎杭本体10を支持地盤に貫入する工程について説明する。杭打機に搭載されたモータ(図示せず)により雇い杭90を回転し、雇い杭90の回転トルク及び押込み力を上杭12に伝え、基礎杭本体10をその下端部が支持地盤に達するまで貫入する。このとき、雇い杭90は基礎杭本体10と共に地盤に貫入し、その頭部が地表上に残る。また、係止駒15は基礎杭本体10の地盤への貫入に伴い補強体40(図10(a)、(b)等参照)の下端予定位置(基礎杭の杭頭部補強予定深度)まで貫入する。 Next, a process of penetrating the foundation pile main body 10 into the support ground will be described with reference to FIG. The hiring pile 90 is rotated by a motor (not shown) mounted on the pile driving machine, the rotational torque and pushing force of the hiring pile 90 are transmitted to the upper pile 12, and the lower end of the foundation pile body 10 reaches the supporting ground. To penetrate. At this time, the hired pile 90 penetrates into the ground together with the foundation pile main body 10, and its head remains on the ground surface. In addition, the locking piece 15 extends to the lower end planned position (scheduled depth of reinforcement of the pile head of the foundation pile) of the reinforcing body 40 (see FIGS. 10A and 10B) with the penetration of the foundation pile body 10 into the ground. Intrude.
次いで、図3(d)を参照してケーシング60を雇い杭90に被せる工程を説明する。ケーシング60の下端部には予め円環板64が着脱自在に取付けられており、その中心穴65(図9(a)、(b)参照)に地表に突出している雇い杭90の頭部を挿通させる。 Next, with reference to FIG. 3 (d), the process of hiring and covering the casing 60 on the pile 90 will be described. An annular plate 64 is detachably attached to the lower end portion of the casing 60 in advance, and the head of the hiring pile 90 protruding to the ground surface in the center hole 65 (see FIGS. 9A and 9B). Insert.
次いで、図3(e)を参照してケーシング60を地盤に補強体40の下端予定位置まで貫入させる工程を説明する。杭打機に搭載されたモータ(図示せず)によりケーシング60を回転し、地盤に貫入させると、雇い杭90に沿って下降して円環板64が係止駒15に当たる。これにより、ケーシング60は補強体40の下端予定位置にまで貫入し、その頭部が雇い杭90と同じ高さで地表上に残る。地表に残ったケーシング60の頭部(上端部)は土留めの役割を果たし、周囲の土砂がケーシング60内に落下するのを防止する。ケーシング60を地盤に貫入させる過程で円環板64の中心穴65と雇い杭90との間の僅かな隙間から土砂が侵入し、雇い杭90の外周面に付着する。 Next, a process of penetrating the casing 60 into the ground to the planned lower end position of the reinforcing body 40 will be described with reference to FIG. When the casing 60 is rotated by a motor (not shown) mounted on the pile driver and penetrates into the ground, the casing 60 descends along the hiring pile 90 and the annular plate 64 hits the locking piece 15. Thus, the casing 60 penetrates to the planned lower end position of the reinforcing body 40, and its head remains on the ground surface at the same height as the hired pile 90. The head portion (upper end portion) of the casing 60 remaining on the ground surface plays a role of earth retaining, and prevents surrounding earth and sand from falling into the casing 60. In the process of inserting the casing 60 into the ground, earth and sand enter through a slight gap between the center hole 65 of the annular plate 64 and the hiring pile 90 and adhere to the outer peripheral surface of the hiring pile 90.
次いで、図3(f)を参照して雇い杭90を撤去する工程を説明する。雇い杭90を時計方向又は反時計方向に回転させて切欠き部91と係止駒15との係止を解除し、雇い杭90を引き上げる。これにより、ケーシング60の内周と上杭12の外周との間に円環状空間部70が形成される。また、雇い杭90の外周面に付着した土砂は雇い杭90の撤去に伴い運び去られて円環状空間部70に残らない。 Next, the process of removing the hiring pile 90 will be described with reference to FIG. The hiring pile 90 is rotated clockwise or counterclockwise to unlock the notch 91 and the locking piece 15, and the hiring pile 90 is pulled up. As a result, an annular space 70 is formed between the inner periphery of the casing 60 and the outer periphery of the upper pile 12. Moreover, the earth and sand adhering to the outer peripheral surface of the hiring pile 90 is carried away with the removal of the hiring pile 90 and does not remain in the annular space portion 70.
次いで、図3(g)を参照して鉄筋籠20をケーシング60内に挿入する工程を説明するが、この工程は上述した図1(e)の工程と同じである。すなわち、鉄筋籠20を円環状空間部70内に挿入し、図3(h)に示す次工程のコンクリート打設まで時間がある場合は、地下水の侵入する防止するために必要に応じて止水処理(例えば早強モルタルや水ガラスを投入するなど)を施す。 Next, a process of inserting the reinforcing bar 20 into the casing 60 will be described with reference to FIG. 3 (g). This process is the same as the process of FIG. 1 (e) described above. That is, when the reinforcing bar 20 is inserted into the annular space 70 and there is time until the concrete is placed in the next process shown in FIG. 3 (h), the water is stopped as necessary to prevent the intrusion of groundwater. Treatment (for example, throwing in early strong mortar or water glass) is performed.
次いで、図3(h)を参照してコンクリートを打設する工程を説明するが、この工程も上述した図1(f)の工程と同じである。すなわち、円環状空間部70内にトレミー管(図示せず)を下して、コンクリート30を下から順に打設し、必要に応じてバイブレータを掛けて締固めをする。 Next, the process of placing concrete will be described with reference to FIG. 3 (h). This process is also the same as the process of FIG. 1 (f) described above. That is, a tremy pipe (not shown) is lowered into the annular space 70, and the concrete 30 is placed in order from the bottom, and a vibrator is applied and compacted as necessary.
次いで、図3(i)を参照してケーシング60を地盤から撤去する工程を説明する。コンクリート打設が終了したら、ケーシング60を地盤への貫入時とは反対の方向に回転してその下端部から円環板64(図9(a)、(b)参照)を取り外しつつ地盤から引き抜くが、このときケーシング60の側壁の厚みに相当する分だけコンクリートが横に広がるため、コンクリート30の上端位置は若干下がる。なお、図3(i)では、図面上、円環板64を省略しているが、円環板64はケーシング60の撤去後鉄筋籠20入りのコンクリート30の下端部に残る。 Next, a process of removing the casing 60 from the ground will be described with reference to FIG. When the concrete placement is finished, the casing 60 is rotated in the direction opposite to that when penetrating into the ground, and the annular plate 64 (see FIGS. 9A and 9B) is removed from the lower end of the casing 60 and pulled out from the ground. However, since the concrete spreads laterally by an amount corresponding to the thickness of the side wall of the casing 60 at this time, the upper end position of the concrete 30 is slightly lowered. In FIG. 3I, the annular plate 64 is omitted in the drawing, but the annular plate 64 remains at the lower end of the concrete 30 containing the reinforcing bar 20 after the casing 60 is removed.
以上のようにして基礎杭本体10の杭頭部14に鉄筋籠20入りのコンクリート30からなる補強体40が構築される。杭工事作業終了後、上述した第1実施例の場合と同様に基礎杭本体10の杭頭部14にフーチング50(図11参照)が築造され、主筋21の上端部分21aがフーチング50に呑み込まれて、フーチング50が杭頭部14と接合される。 As described above, the reinforcing body 40 made of the concrete 30 containing the reinforcing bar 20 is constructed on the pile head 14 of the foundation pile main body 10. After the completion of the pile construction work, a footing 50 (see FIG. 11) is built on the pile head 14 of the foundation pile body 10 in the same manner as in the first embodiment described above, and the upper end portion 21a of the main bar 21 is swallowed into the footing 50. Thus, the footing 50 is joined to the pile head 14.
上述した本第1、第2、第3実施例の基礎杭の構築方法によれば、
補強体40は鉄筋籠20入りのコンクリート30からなり、基礎杭本体10の数倍の剛性と強度が得られるため、水平抵抗が増大して基礎杭本体10の水平変位量及曲げモーメントを大幅に(数分の1に)低減できる。
ケーシング60を地盤に貫入させる際、第1実施例ではケーシング60の下端部に着脱自在に取付けた底蓋63によりケーシング60内に土砂が侵入するのを防止し、また第2実施例では上杭12に固定した接続金具80にケーシング60の下端部を着脱自在に連結し、接続金具80によりケーシング60内に土砂が侵入するのを防止し、また第3実施例ではケーシング60の下端部に着脱自在に取付けた円環板64によりケーシング60内に土砂が侵入するのを防止しているので、ケーシング60の貫入後、ケーシング60内の土砂を掘削する必要がなく、杭打ち機以外の重機は不必要である。
ケーシング60の地盤への貫入に掘削残土が発生しない。
ケーシング60の無排土貫入により、補強体40の外側地盤の密度を高め、その結果土の強度が高まり水平抵抗力が増える。
第1実施例では上杭12の貫入前に底蓋63付きのケーシング60を先行して地盤に貫入するため、第2実施例ではケーシング60に包まれた状態で上杭12を地盤に貫入するため、第3実施例では雇い杭90に包まれた状態で上杭90を地盤に貫入するため、いずれも補強予定区間の基礎杭本体10(上杭12)の外周面に泥土が付着せず、基礎杭本体10とコンクリート30との一体性を確保できる。
鉄筋籠20に案内金具23を付けることにより、目視確認ができない地中であっても、基礎杭本体10と鉄筋籠20を同心状に配置することができる。
鉄筋籠20を構成する主筋21の上端部分21aを基礎杭上段から突出させることにより、基礎コンクリート築造時に突出部を呑み込ませることができる。その結果、別途結合用鋼材を設ける場合に較べ、基礎杭と基礎コンクリートの結合の信頼性が増すとともに、結合作業を簡略化できる。
According to the foundation pile construction method of the first, second and third embodiments described above,
The reinforcing body 40 is made of the concrete 30 containing the reinforcing bar 20 and can obtain rigidity and strength several times that of the foundation pile body 10, so that the horizontal resistance increases and the horizontal displacement amount and bending moment of the foundation pile body 10 are greatly increased. Can be reduced (by a fraction).
When the casing 60 is penetrated into the ground, in the first embodiment, the bottom lid 63 detachably attached to the lower end portion of the casing 60 prevents the earth and sand from entering the casing 60. In the second embodiment, the upper pile is used. The lower end portion of the casing 60 is detachably coupled to the connection fitting 80 fixed to 12, and the connection fitting 80 prevents earth and sand from entering the casing 60. In the third embodiment, the lower end portion of the casing 60 is attached and detached. Since the ring plate 64 that is freely attached prevents the earth and sand from entering the casing 60, it is not necessary to excavate the earth and sand in the casing 60 after the casing 60 penetrates. Is unnecessary.
Excavated soil is not generated when the casing 60 penetrates the ground.
The non-extruded soil penetration of the casing 60 increases the density of the outer ground of the reinforcing body 40. As a result, the strength of the soil increases and the horizontal resistance increases.
In the first embodiment, since the casing 60 with the bottom lid 63 penetrates into the ground before the upper pile 12 penetrates, in the second embodiment, the upper pile 12 penetrates into the ground while being wrapped in the casing 60. Therefore, in the third embodiment, since the upper pile 90 penetrates into the ground while being wrapped in the hired pile 90, no mud adheres to the outer peripheral surface of the foundation pile body 10 (upper pile 12) in the planned reinforcement section. The integrity of the foundation pile body 10 and the concrete 30 can be secured.
By attaching the guide fitting 23 to the reinforcing bar 20, the foundation pile body 10 and the reinforcing bar 20 can be arranged concentrically even in the ground where visual confirmation is not possible.
By projecting the upper end portion 21a of the main bar 21 constituting the reinforcing bar 20 from the upper stage of the foundation pile, it is possible to squeeze the projecting part when building the foundation concrete. As a result, the reliability of the connection between the foundation pile and the foundation concrete is increased and the connection work can be simplified as compared with the case where a separate steel for connection is provided.
本発明は上述した第1実施例、第2実施例、第3実施例の各構築方法で示した基礎杭本体10、鉄筋籠20、流動性固化体としてのコンクリート30、ケーシング60、接続金具80、雇い杭90などに限定されるものではない。例えば、基礎杭本体10は鋼管杭に限定されるものではない。 The present invention relates to the foundation pile main body 10, the reinforcing bar 20, the concrete 30 as a fluidized solid body, the casing 60, and the connection fitting 80 shown in the construction methods of the first embodiment, the second embodiment, and the third embodiment described above. It is not limited to the hiring pile 90 or the like. For example, the foundation pile main body 10 is not limited to a steel pipe pile.
本発明は、杭頭部付近の地盤が軟弱な個所に基礎杭を構築する場合に適用される。 The present invention is applied when a foundation pile is constructed at a place where the ground near the pile head is soft.
10 基礎杭本体
11 下杭
12 上杭
14 杭頭部
15 係止駒
20 鉄筋籠
21 主筋
21a 上端部分
23 案内金具
30 コンクリート
40 補強体
50 フーチング
60 ケーシング
63 底蓋
64 円環板
70 円環状空間部
80 接続金具
90 雇い杭
DESCRIPTION OF SYMBOLS 10 Foundation pile main body 11 Lower pile 12 Upper pile 14 Pile head 15 Locking piece 20 Reinforcement rod 21 Main reinforcement 21a Upper end part 23 Guide metal fittings 30 Concrete 40 Reinforcement body 50 Footing 60 Casing 63 Bottom cover 64 Ring plate 70 Annular space part 80 Connection fitting 90 Hiring pile
Claims (5)
着脱可能な底蓋を有し、内径が前記基礎杭本体の外径よりも大きい円筒状のケーシングを、その下端部が前記補強体の下端予定位置に達するまで地盤に貫入して、前記ケーシングの内部に空間部を確保する工程と、
前記底蓋を前記ケーシングから取り外した後、前記ケーシングの前記空間部に前記基礎杭本体を挿入して、該基礎杭本体を支持地盤まで貫入する工程と、
前記ケーシングと前記基礎杭本体の前記杭頭部との間に形成された円環状空間部に鉄筋籠を挿入して流動性固化材を充填する工程と、
前記ケーシングを地盤から撤去する工程と、を備えることを特徴とする基礎杭の構築方法。 In the construction method of the foundation pile that builds a reinforcing body with reinforcing bars on the outer periphery of the pile head of the foundation pile body and enhances the horizontal resistance of the pile head,
A cylindrical casing having a detachable bottom cover and having an inner diameter larger than the outer diameter of the foundation pile main body is inserted into the ground until the lower end of the base reaches a predetermined position of the lower end of the reinforcing body. A process of securing a space inside,
After removing the bottom lid from the casing, inserting the foundation pile body into the space of the casing and penetrating the foundation pile body to the support ground;
Inserting a rebar rod into an annular space formed between the casing and the pile head of the foundation pile body and filling a fluidized solidifying material;
And a step of removing the casing from the ground.
前記補強体の下端予定位置に接続金具を固着した前記基礎杭本体を、該接続金具が地表付近に位置するまで地盤に貫入する工程と、
内径が前記基礎杭本体の外径よりも大きい円筒状のケーシングを前記基礎杭本体に被せて該ケーシングの下端部を前記接続金具と連結し、前記ケーシングをその頭部が地表に残るように地盤に貫入すると共に前記基礎杭本体を支持地盤まで更に貫入する工程と、
前記ケーシングと前記基礎杭本体の前記杭頭部との間に形成された円環状空間に鉄筋籠を挿入して流動性固化材を充填する工程と、
前記ケーシングを地盤から撤去する工程と、を備え、
前記接続金具は、前記ケーシングの下端部を閉じ、前記ケーシングを地盤に貫入させる際、前記ケーシングの内部に土砂が侵入するのを防止することを特徴とする基礎杭の構築方法。 In the construction method of the foundation pile that builds a reinforcing body with reinforcing bars on the outer periphery of the pile head of the foundation pile body and enhances the horizontal resistance of the pile head,
A step of penetrating the foundation pile main body with a connection fitting fixed at a lower end planned position of the reinforcing body into the ground until the connection fitting is located near the ground surface;
Cover the foundation pile body with a cylindrical casing whose inner diameter is larger than the outer diameter of the foundation pile body, connect the lower end of the casing to the connection fitting, and leave the casing so that its head remains on the ground surface And the process of further penetrating the foundation pile body to the support ground,
Inserting a rebar rod into an annular space formed between the casing and the pile head of the foundation pile body and filling a fluidized solidifying material;
Removing the casing from the ground, and
The method for constructing a foundation pile according to claim 1, wherein the connection fitting closes a lower end portion of the casing and prevents the earth and sand from entering the casing when the casing is penetrated into the ground.
前記補強体の下端予定位置に係止駒を固着した前記基礎杭本体を、該係止駒が地表付近に位置するまで地盤に貫入する工程と、
内径が前記基礎杭本体の外径よりも大きい円筒状の雇い杭を前記基礎杭本体に被せて、該雇い杭の下端部を前記係止駒と着脱自在に連結し、前記雇い杭を介して前記基礎杭本体を更に支持地盤まで貫入する工程と、
内径が前記雇い杭の外径より僅かに大きい中心穴を有する円環板を下端部に着脱自在に取付けた、内径が前記雇い杭の外径よりも大きい円筒状のケーシングを前記雇い杭に被せ、該ケーシングを前記補強体の下端予定位置まで地盤に貫入する工程と、
前記雇い杭の下端部を前記係止駒から外し、前記雇い杭を地盤から引き抜き、前記ケーシングと前記基礎杭本体の前記杭頭部との間に形成された円環状空間に鉄筋籠を挿入して流動性固化材を充填する工程と、
前記ケーシングを地盤から撤去する工程と、を備えてなることを特徴とする基礎杭の構築方法。 In the construction method of the foundation pile that builds a reinforcing body with reinforcing bars on the outer periphery of the pile head of the foundation pile body and enhances the horizontal resistance of the pile head,
A step of penetrating the foundation pile main body having a locking piece fixed to a lower end planned position of the reinforcing body into the ground until the locking piece is positioned near the ground surface;
Covering the foundation pile body with a cylindrical employment pile whose inner diameter is larger than the outer diameter of the foundation pile body, removably connecting the lower end of the employment pile to the locking piece, and through the employment pile A step of further penetrating the foundation pile body to the supporting ground;
A cylindrical casing having an inner diameter that is detachably attached to the lower end portion and having a center hole slightly larger than the outer diameter of the hiring pile is covered with the hiring pile. , The step of penetrating the casing to the ground to the lower end planned position of the reinforcing body,
The lower end of the hiring pile is removed from the locking piece, the hiring pile is pulled out from the ground, and a reinforcing bar is inserted into an annular space formed between the casing and the pile head of the foundation pile body. Filling the fluidized solidifying material with,
And a step of removing the casing from the ground.
前記鉄筋籠の複数個所に、内径が基礎杭本体の外径より僅かに大きい案内金具を備えたことを特徴とする基礎杭の構築方法。 In the foundation pile construction method according to any one of claims 1 to 3,
A foundation pile construction method characterized by comprising guide fittings having an inner diameter slightly larger than the outer diameter of the foundation pile main body at a plurality of locations of the reinforcing bar.
前記鉄筋籠の主筋を補強体築造範囲よりも上方に突出させて、該突出部分を基礎コンクリートに埋め込むことを特徴とする基礎杭の構築方法。 In the foundation pile construction method according to any one of claims 1 to 3,
The rebar cage the main reinforcement is protruded upward from the reinforcing body construction range, method for constructing a foundation pile, characterized in that embedding the projecting portion foundation concrete.
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