JP2010236344A - Center axis correction device for facility strut fixing device - Google Patents

Center axis correction device for facility strut fixing device Download PDF

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JP2010236344A
JP2010236344A JP2009249145A JP2009249145A JP2010236344A JP 2010236344 A JP2010236344 A JP 2010236344A JP 2009249145 A JP2009249145 A JP 2009249145A JP 2009249145 A JP2009249145 A JP 2009249145A JP 2010236344 A JP2010236344 A JP 2010236344A
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facility
center axis
fixture
correction device
axis
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JP2009249145A
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Japanese (ja)
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Mun Soku Kim
ソク キム、ムン
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KURINAA KOREA CO Ltd
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KURINAA KOREA CO Ltd
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Priority claimed from KR2020090003650U external-priority patent/KR200458741Y1/en
Priority claimed from KR1020090030225A external-priority patent/KR101048529B1/en
Priority claimed from KR1020090062911A external-priority patent/KR101057701B1/en
Priority claimed from KR2020090008938U external-priority patent/KR20110000513U/en
Application filed by KURINAA KOREA CO Ltd filed Critical KURINAA KOREA CO Ltd
Publication of JP2010236344A publication Critical patent/JP2010236344A/en
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a center axis correction device for a facility strut fixing device, capable of aligning the facility strut fixing device to the center axis by correcting the horizontal chord (X-axis), vertical chord (Y-axis), vertical direction (Z-axis), and horizontal direction (X-Y plane) of the facility strut fixing device which are deviated from the center axis in the foundation work of a facility in which a large number of facility strut fixing devices having facility struts inserted therethrough are intruded into the ground with the horizontal chords and the vertical cords aligned with each other. <P>SOLUTION: In the foundation work of a facility in which a large number of facility strut fixing devices having facility struts inserted therethrough are intruded into the ground with the horizontal chords and the vertical cords aligned with each other, the center-axis correction device for a facility strut fixing device is attached to the facility strut fixing device which is deviated from the center axis and tightened and fixed. Therefore, the facility strut can be smoothly and stably installed by easily correcting the horizontal chord (X-axis), vertical chord (Y-axis), vertical direction (Z-axis), and horizontal direction (X-Y plane) of the center axis for aligning the center axis with the facility strut fixing device. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

本発明は、施設支柱固定具の中心軸補正装置に係り、さらに詳しくは、施設支柱が挿設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事において中心軸を外れた施設支柱固定具の横紐(X軸)、縦紐(Y軸)、垂直(Z軸)、及び水平(X−Y面)を補正して前記施設支柱固定具を前記中心軸に合わせることのできる施設支柱固定具の中心軸補正装置に関する。   The present invention relates to a center axis correcting device for a facility support fixture, and more specifically, a facility foundation for penetrating a plurality of facility support fixtures into which the facility support is inserted into the ground by combining horizontal and vertical cords. The facility strut fixing tool is corrected by correcting the horizontal string (X axis), vertical string (Y axis), vertical (Z axis), and horizontal (XY plane) of the facility strut fixing tool that is off the central axis in the construction. The present invention relates to a center axis correction device for a facility support fixture that can be adjusted to the center axis.

一般に、建築物、畜舎、屋外施設、造景施設、水上構造物などの施設を施工するとき、その施設支柱を地上に支持するための基礎を設置する。このとき、かような基礎として施設支柱が嵌設される施設支柱固定具を使用するが、このような施設支柱固定具を施設支柱に合わせて多数が地中に貫入する。   Generally, when constructing a facility such as a building, a barn, an outdoor facility, a landscape facility, or a floating structure, a foundation for supporting the facility support on the ground is installed. At this time, a facility support fixture to which the facility support is fitted is used as such a foundation, and many such facility support fixtures penetrate the ground according to the facility support.

このように施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事において施設支柱固定具を地中に貫入するに際して、地中の岩石や不均質な土質、地盤が出現する場合が頻発して施工しようとする中心軸を外れたり、水平面が回転してねじれが発生したり、海岸地域、河川地域、湿地、水空間などの地盤が弱い軟弱地盤地域においてはこのような施設固定具を地中に貫入しようとするときに前記施設固定具の支持力を十分に確保することのできる地盤まで地中に貫入しなければならないため、施設支柱固定具が地中に貫入する深さも異なってくる場合がある。この場合に、前記施設支柱固定具は中心軸を外れてしまい、前記施設支柱固定具に施工される施設支柱を前記施設支柱固定具に正確な位置と高さをもって嵌設することができなくなるという不都合がある。   In the foundation work of the facility that penetrates a lot of facility support fixtures that are fitted with the facility support posts into the ground by combining the horizontal string and the vertical string, when the facility support fixtures penetrate into the ground, When rocks, heterogeneous soil, and ground appear frequently, it is off the central axis to be constructed, the horizontal plane rotates and twists occur, and the ground such as coastal area, river area, wetland, water space, etc. In a weak soft ground area, when trying to penetrate such a facility fixture into the ground, it is necessary to penetrate into the ground to the ground that can sufficiently secure the support force of the facility fixture, The depth at which the facility support fixture penetrates into the ground may vary. In this case, the facility support fixture is off the center axis, and the facility support to be constructed on the facility support fixture cannot be fitted to the facility support fixture with an accurate position and height. There is an inconvenience.

米国特許第7467536号明細書US Pat. No. 7,467,536

本発明は上述した問題点を解消するためになされたものであり、その目的は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事において、中心軸を外れた施設の固定具を簡単に補正して中心軸を合わせることにより施設支柱を円滑で且つ安定的に設置することのできる施設支柱固定具の中心軸補正装置を提供するところにある。   The present invention has been made to solve the above-described problems, and its purpose is to install a large number of facility strut fixtures in which facility struts are fitted into the ground by combining horizontal and vertical cords. A center axis correction device for a facility support fixture that can be installed smoothly and stably by simply correcting the fixture of the facility off the center axis and matching the center axis in the foundation work of There is to offer.

本発明による施設支柱固定具の中心軸補正装置は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の上端面に結合され、縁部には多数のスロット201が等間隔にて形成されて多数の連結部202が前記スロット201と交互に形成され、中央部には固定孔203が形成され、前記中央部の下部面には固定片204が形成されるフランジ20と、前記フランジ20の上側に結合されるが、内側に前記施設支柱100が嵌設される空間部が形成され、下部面にガイド孔301が形成されてガイド片302が前記ガイド孔301に沿って移動可能に取り付けられて前記固定孔203を貫通して前記固定片204に締結され、前記ガイド孔301と前記スロット201がボルト−ナット締結される支柱連結部30と、を備えることを特徴とする。   The center axis correction device for a facility post fixing device according to the present invention deviates from the central axis in the foundation work of a facility that penetrates a large number of facility support fixtures into which the facility post is fitted into the ground by combining horizontal and vertical strings. In the center axis correcting device for the facility post fixture, the slot is coupled to the upper end surface of the facility post fixture 10, a plurality of slots 201 are formed at equal intervals on the edge, and a plurality of connecting portions 202 are connected to the slots 201. The fixing hole 203 is formed in the central part, the fixing part 204 is formed on the lower surface of the central part, and the flange 20 is coupled to the upper side of the flange 20. A space where the facility support column 100 is fitted is formed, a guide hole 301 is formed on the lower surface, and a guide piece 302 is movably attached along the guide hole 301 and passes through the fixing hole 203 to Solid Is fastened to the strip 204, the guide hole 301 and the slot 201 volts - characterized in that it comprises a strut connecting portion 30 that is the nut fastened, the.

また、本発明による施設支柱固定具の中心軸補正装置において、前記フランジ20は、前記多数のスロット201と連結部202の内側に同じ形状の連結部202’とスロット201’が交互にそれぞれ形成されることを特徴とする。   Also, in the center axis correcting device for a facility support fixture according to the present invention, the flange 20 has the same shape of connecting portions 202 ′ and slots 201 ′ alternately formed inside the numerous slots 201 and connecting portions 202. It is characterized by that.

さらに、本発明による施設支柱固定具の中心軸補正装置は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の上端面に結合され、縁部には多数の第1スロット401が等間隔にて形成されて多数の第1連結部402が前記第1スロット401と交互に形成され、中央部には第1固定孔403が形成され、前記中央部の下部面には固定片404が形成される第1フランジ40と、前記第1フランジ40の上側に結合されるが、内側に前記施設支柱100が挿設される空間部が形成され、下部面の中央部には第2固定孔501が形成されて締結片502が前記第2固定孔501と前記第1固定孔403を貫通して前記固定片404に締結され、前記第1フランジ40の前記第1スロット401と第1連結部402に対向して同じ形状に第2スロット503と第2連結部504が形成されてボルト505が前記第1スロット401と前記第2スロット503を貫通してダブルナット506に締結される第2フランジ50と、を備えることを特徴とする。   Furthermore, the center axis correction device for a facility support fixture according to the present invention is a center axis in the foundation work of a facility for penetrating a large number of facility support fixtures into which the facility support is fitted into the ground by combining horizontal and vertical cords. In the center axis correction device for the facility post fixture that has been removed from the center column, it is coupled to the upper end surface of the facility post fixture 10, and a plurality of first slots 401 are formed at equal intervals on the edge to provide a number of first connections. The portions 402 are alternately formed with the first slots 401, the first fixing holes 403 are formed in the central portion, the first flange 40 having the fixing piece 404 formed on the lower surface of the central portion, and the first A space portion into which the facility support column 100 is inserted is formed on the inner side of the flange 40, and a second fixing hole 501 is formed in the central portion of the lower surface so that the fastening piece 502 is the first piece. 2 fixing holes 501 and the first fixing holes 40 And the second slot 503 and the second connecting portion 504 are formed in the same shape so as to face the first slot 401 and the first connecting portion 402 of the first flange 40. The bolt 505 includes a second flange 50 that passes through the first slot 401 and the second slot 503 and is fastened to a double nut 506.

さらに、本発明による施設支柱固定具の中心軸補正装置は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の空間部には前記施設支柱100が嵌設されるが、前記施設支柱固定具10の上部には多数の係合孔101が等間隔にて形成され、前記係合孔101には係合片102が係合されて前記施設支柱100を固定することを特徴とする。   Furthermore, the center axis correction device for a facility support fixture according to the present invention is a center axis in the foundation work of a facility for penetrating a large number of facility support fixtures into which the facility support is fitted into the ground by combining horizontal and vertical cords. In the center axis correcting device for the facility post fixture 10 that is off the center, the facility post 100 is fitted in the space portion of the facility post fixture 10, but a number of engagements are provided on the upper portion of the facility post fixture 10. Holes 101 are formed at equal intervals, and an engagement piece 102 is engaged with the engagement hole 101 to fix the facility column 100.

さらに、本発明による施設支柱固定具の中心軸補正装置は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の空間部には連結棒60が嵌設され、前記連結棒60の上端面には内側に前記施設支柱100が嵌設される空間部が形成される支柱連結部30’が結合されるが、前記施設支柱固定具10の上部には多数の係合孔101が等間隔にて形成され、前記係合孔101には係合片102が係合されて前記施設支柱100を固定することを特徴とする。   Furthermore, the center axis correction device for a facility support fixture according to the present invention is a center axis in the foundation work of a facility for penetrating a large number of facility support fixtures into which the facility support is fitted into the ground by combining horizontal and vertical cords. In the center axis correcting device for the facility post fixture that has been removed, a connecting rod 60 is fitted into the space of the facility post fixture 10, and the facility post 100 is fitted inside the upper end surface of the connecting rod 60. A column connecting portion 30 ′ in which a space portion is formed is coupled, but a plurality of engagement holes 101 are formed at equal intervals in the upper part of the facility column fixing tool 10. Is characterized in that the facility piece 100 is fixed by the engagement piece 102 being engaged.

さらに、本発明による施設支柱固定具の中心軸補正装置において、前記係合孔101は3つが等間隔にて形成され、前記係合孔101に前記係合片102が係合されることを特徴とする。   Furthermore, in the center axis correction device for a facility support fixture according to the present invention, three engagement holes 101 are formed at equal intervals, and the engagement pieces 102 are engaged with the engagement holes 101. And

さらに、本発明による施設支柱固定具の中心軸補正装置は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10は、内側に前記施設支柱が嵌設される空間部71、81が形成される下部固定具70と上部固定具80とから構成されるが、前記下部固定具70は、下部には外周縁にネジ山73が形成される上広下狭のくさび部74が形成され、前記下部固定具70の上端部に前記上部固定具80の下端部が組み付け可能に形成されることを特徴とする。   Furthermore, the center axis correction device for a facility support fixture according to the present invention is a center axis in the foundation work of a facility for penetrating a large number of facility support fixtures into which the facility support is fitted into the ground by combining horizontal and vertical cords. In the center axis correction device for the facility post fixture that has been removed, the facility post fixture 10 includes a lower fixture 70 and an upper fixture 80 in which space portions 71 and 81 into which the facility post is fitted are formed. The lower fixture 70 has an upper, lower and narrow wedge portion 74 formed with a screw thread 73 on the outer periphery at the lower portion, and the upper portion of the lower fixture 70 has the upper portion. The lower end portion of the fixture 80 is formed so as to be assembled.

さらに、本発明による施設支柱固定具の中心軸補正装置は、前記下部固定具70の上端部と前記上部固定具80の下端部にはフランジ部77、87が形成されて互いにフランジ結合されるが、前記フランジ部77、87は螺旋状に形成されることを特徴とする。   Furthermore, in the center axis correcting device for a facility support fixture according to the present invention, flange portions 77 and 87 are formed at the upper end portion of the lower fixture 70 and the lower end portion of the upper fixture 80 and are flange-coupled to each other. The flange portions 77 and 87 are formed in a spiral shape.

さらに、本発明による施設支柱固定具の中心軸補正装置において、前記上部固定具80は、外周縁にネジ山84が形成されることを特徴とする。
さらに、本発明による施設支柱固定具の中心軸補正装置は、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の上部に一体にまたは結合形成され、前後方面にそれぞれ2つずつのX軸ガイド孔151が形成され、前記X軸ガイド孔151には前記X軸ガイド孔151に沿って前後に移動し、ガイド片ボルト−ガイド片ナット154、155から構成されるガイド片153が取り付けられるX軸ガイドプレート150と、前記X軸ガイドプレート510の上側に左右方面にそれぞれ2つずつのY軸ガイド孔161が形成され、前記Y軸ガイド孔161には前記Y軸ガイド孔161に沿って左右に移動し、前記ガイド片153が取り付けられるY軸ガイドプレート160と、を備えることを特徴とする。 Furthermore, in the center axis correction device for a facility support fixture according to the present invention, the upper fixture 80 is characterized in that a screw thread 84 is formed on the outer peripheral edge.
Furthermore, the center axis correction device for a facility support fixture according to the present invention is a center axis in the foundation work of a facility for penetrating a large number of facility support fixtures into which the facility support is fitted into the ground by combining horizontal and vertical cords. In the center-axis correcting device for the facility post fixture that has been removed, the X-axis guide hole 151 is formed on the front-rear surface of the facility post fixture 10 integrally or in combination with the upper portion of the facility post fixture 10. The guide hole 151 moves back and forth along the X-axis guide hole 151, and an X-axis guide plate 150 to which a guide piece 153 composed of guide piece bolt-guide piece nuts 154 and 155 is attached, and the X-axis guide Two Y-axis guide holes 161 are formed on the upper side of the plate 510 on the left and right sides, respectively, and the Y-axis guide hole 161 moves to the left and right along the Y-axis guide hole 161. , Characterized in that it comprises a and a Y-axis guide plate 160 in which the guide piece 153 is attached.

さらに、本発明による施設支柱固定具の中心軸補正装置は、前記ガイド片ナット155はダブルナット156から構成して前記Y軸ガイドプレート160の上下に締結されて前記X軸ガイドプレート150と前記Y軸ガイドプレート160の前後左右の間隔を調節できるようにすることを特徴とする。   Further, in the center axis correcting apparatus for a facility support fixture according to the present invention, the guide piece nut 155 is composed of a double nut 156 and is fastened to the top and bottom of the Y axis guide plate 160 so that the X axis guide plate 150 and the Y axis guide plate are fixed. The distance between the front, rear, left and right of the shaft guide plate 160 can be adjusted.

本発明に係る施設支柱固定具の中心軸補正装置によれば、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事において中心軸を外れた施設支柱固定具に取り付けて締結・固定することにより中心軸の横紐(X軸)、縦紐(Y軸)、垂直(Z軸)、及び水平(X−Y面)を簡単に補正して中心軸を合わせることで施設支柱を円滑で且つ安定的に設置することが可能になる。   According to the center axis correction device for a facility support fixture according to the present invention, the center of the facility support for inserting the facility support fixtures into which the facility support is fitted is inserted into the ground with the horizontal cord and the vertical strap. Easily set the horizontal string (X axis), vertical string (Y axis), vertical (Z axis), and horizontal (XY plane) of the center axis by attaching and fastening to the off-axis facility support fixture It is possible to smoothly and stably install the facility support column by adjusting to the center axis.

中心軸を外れた施設支柱固定具の状態図。The state figure of the facilities support | pillar fixing tool off the central axis. 本発明による施設支柱固定具の中心軸補正装置の分解斜視図。The disassembled perspective view of the center axis correction | amendment apparatus of the facility support | pillar fixing tool by this invention. 本発明による施設支柱固定具の中心軸補正装置の側面図。The side view of the center axis correction | amendment apparatus of the facility support | pillar fixing tool by this invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の分解斜視図。The exploded perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の側面図。The side view of other embodiment of the center axis correction | amendment apparatus of the facilities support | pillar fixing tool by this invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図。The perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の平面図。The top view of other embodiment of the center axis correction | amendment apparatus of the facilities support | pillar fixing tool by this invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図。The perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図。The perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図。The perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図。The perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図。The perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の側面分解図。The side exploded view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の側面結合図。The side coupling | bonding figure of other embodiment of the center axis | shaft correction apparatus of the facilities support | pillar fixing tool by this invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の分解斜視図。The exploded perspective view of other embodiments of the center axis amendment device of the facility support fixture by the present invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の使用状態図。The use condition figure of other embodiment of the center axis correction | amendment apparatus of the facility support | pillar fixing tool by this invention. 本発明による施設支柱固定具の中心軸補正装置の他の実施形態の使用状態側面図。The use condition side view of other embodiment of the center axis | shaft correction apparatus of the facility support | pillar fixing tool by this invention.

以下、添付図面に基づき、本発明による施設支柱固定具の中心軸補正装置及び補正方法を詳述する。
図1は、中心軸を外れた施設支柱固定具の状態図であり、図2は、本発明による施設支柱固定具の中心軸補正装置の分解斜視図であり、図3は、本発明による施設支柱固定具の中心軸補正装置の側面図であり、図4は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の分解斜視図であり、図5は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の側面図であり、図6は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図であり、図7は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の平面図であり、図8は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図であり、図9A〜図10Bは、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の斜視図であり、図11Aは、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の側面分解図であり、図11Bは、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の側面結合図であり、図12は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の分解斜視図であり、図13は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の使用状態図であり、図14は、本発明による施設支柱固定具の中心軸補正装置の他の実施形態の使用状態側面図である。 Hereinafter, a center axis correction device and a correction method for a facility support fixture according to the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a state diagram of a facility strut fixing tool off the central axis, FIG. 2 is an exploded perspective view of a center axis correcting device for a facility strut fixing device according to the present invention, and FIG. 3 is a facility according to the present invention. FIG. 4 is a side view of a center axis correcting device for a column fixing device, FIG. 4 is an exploded perspective view of another embodiment of a center axis correcting device for a facility column fixing device according to the present invention, and FIG. 5 is a facility according to the present invention. FIG. 6 is a side view of another embodiment of the center axis correcting device for the column fixing device, FIG. 6 is a perspective view of another embodiment of the center axis correcting device for the facility column fixing device according to the present invention, and FIG. FIG. 8 is a plan view of another embodiment of the center axis correction device for a facility post fixture according to the present invention, and FIG. 8 is a perspective view of another embodiment of the center axis correction device for a facility post fixture according to the present invention; FIGS. 9A to 10B are other embodiments of the center axis correction device for a facility support fixture according to the present invention. FIG. 11A is a side exploded view of another embodiment of the center axis correcting device for a facility column fixing device according to the present invention, and FIG. 11B is a center axis correcting device for a facility column fixing device according to the present invention. FIG. 12 is an exploded perspective view of another embodiment of the center axis correction device for a facility column fixing device according to the present invention, and FIG. 13 is a facility column fixing according to the present invention. FIG. 14 is a use state diagram of another embodiment of the central axis correction device for a tool, and FIG. 14 is a side view of the use state of another embodiment of the center axis correction device for a facility support fixture according to the present invention.

施設の基礎工事において施設支柱を嵌設するための施設支柱固定具10を横紐と縦紐を合わせて地中に貫入しようとするときに地中の岩石や不均質な土質、地盤が出現する場合が頻発して、図1に示すように、施工しようとする横紐(X軸)、縦紐(Y軸)、垂直(Z軸)から外れてしまい、施設支柱固定具が地中に貫入する深さも異なってきて水平(X−Y面)から外れて中心軸から外れてしまう。この場合に、前記施設支柱固定具に施工される施設支柱100を前記施設支柱固定具10に正確な位置と高さをもって施工することができなくなる。   In the foundation work of the facility, when the facility strut fixture 10 for fitting the facility strut is combined with the horizontal string and the vertical string to penetrate into the ground, underground rocks, heterogeneous soil, and ground appear. As shown in Fig. 1, the case struts often deviates from the horizontal string (X axis), vertical string (Y axis), and vertical (Z axis) to be constructed, and the facility support fixture penetrates into the ground. The depth to which it differs is also different from the horizontal (XY plane) and deviated from the central axis. In this case, the facility strut 100 to be constructed on the facility strut fixture cannot be constructed on the facility strut fixture 10 with an accurate position and height.

本発明による施設支柱固定具の中心軸補正装置は、図2及び図3に示すように、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の上端面に結合され、縁部には多数のスロット201が等間隔にて形成されて多数の連結部202が前記スロット201と交互に形成され、中央部には固定孔203が形成され、前記中央部の下部面には固定片204が形成されるフランジ20と、前記フランジ20の上側に結合されるが、内側に前記施設支柱100が嵌設される空間部が形成され、下部面にガイド孔301が形成されてガイド片302が前記ガイド孔301に沿って移動可能に取り付けられて前記固定孔203を貫通して前記固定片204に締結され、前記ガイド孔301と前記スロット201がボルト−ナット締結される支柱連結部30と、から構成されることを特徴とする。   As shown in FIG. 2 and FIG. 3, the center axis correction device for a facility support fixture according to the present invention penetrates a large number of facility support fixtures in which the facility support is fitted into the ground by combining the horizontal cord and the vertical strap. In the center axis correction device of the facility post fixture that is off the central axis in the foundation work of the facility to be connected, it is coupled to the upper end surface of the facility post fixture 10, and a plurality of slots 201 are formed at equal intervals on the edge. A plurality of connecting portions 202 are alternately formed with the slots 201, a fixing hole 203 is formed in the center portion, and a fixing piece 204 is formed in a lower surface of the center portion. A space portion into which the facility support column 100 is fitted is formed on the inner side, a guide hole 301 is formed on the lower surface, and a guide piece 302 is movably attached along the guide hole 301. The above Through the holes 203 is fastened to the fixed member 204, the slot 201 and the guide hole 301 volts - a tower connecting portion 30 that is the nut fastened, characterized in that it is composed of.

これによれば、細長い穴状の前記多数のスロット201、前記固定孔203、及び前記固定片204が形成される前記フランジ20は前記施設支柱固定具10の上端面に別途の結合手段を用いて結合してもよく、前記施設支柱固定具10と一体に形成してもよい。   According to this, the flange 20 in which the plurality of elongated slots 201, the fixing holes 203, and the fixing pieces 204 are formed is formed on the upper end surface of the facility support fixture 10 using a separate coupling means. It may be combined or formed integrally with the facility support fixture 10.

前記施設支柱固定具10の上端面に前記フランジ20を結合したり一体に形成した場合、前記施設支柱固定具10を地中に貫入するに際して前記フランジ20がより広い面積の地面により支持されるため、一層安定的に地中に貫入する。   When the flange 20 is joined to or integrally formed with the upper end surface of the facility support fixture 10, the flange 20 is supported by the ground having a larger area when the facility support fixture 10 is penetrated into the ground. Penetration into the ground more stably.

また、内側に前記施設支柱100が嵌設される前記支柱連結部30は、前記ガイド片204を前記固定孔203に嵌入することにより前記固定孔203を軸として回転可能であるが、前記中心軸から外れた場合、前記中心軸の方向に前記支柱連結部30を回転させ、前記ガイド孔に沿って中心軸に正確に合わせた後、前記ガイド片204を前記固定孔203を貫通して前記固定片204に締結することにより前記フランジ20と結合され、これと共に、前記ガイド孔301と前記スロット201にボルト−ナット締結することにより二重に固定される。   In addition, the column connecting part 30 in which the facility column 100 is fitted inside can be rotated about the fixed hole 203 by inserting the guide piece 204 into the fixed hole 203. In the case of being off, the column connecting part 30 is rotated in the direction of the central axis, and after accurately aligning with the central axis along the guide hole, the guide piece 204 passes through the fixing hole 203 and is fixed. By being fastened to the piece 204, it is coupled to the flange 20, and at the same time, it is fixed to the guide hole 301 and the slot 201 by being bolt-nut fastened.

このように本発明による施設支柱固定具の中心軸補正装置は、前記施設支柱固定具10の上部面に中心軸を補正して取り付けられ、前記支柱連結部30の前記空間部に前記施設支柱100が嵌設されて安定的に設置されることになる。   As described above, the center axis correction device for a facility support fixture according to the present invention is attached to the upper surface of the facility support fixture 10 while correcting the center axis, and the facility support 100 is installed in the space portion of the support connection portion 30. Will be installed stably.

また、本発明による施設支柱固定具の中心軸補正装置は、図3に示すように、前記フランジ20は前記多数のスロット201と連結部202の内側に同じ形状の連結部202’とスロット201’が交互にそれぞれ形成されることを特徴とする。   Further, as shown in FIG. 3, the center axis correcting device for a facility support fixture according to the present invention has the flange 20 having the same shape of the connecting portion 202 ′ and the slot 201 ′ inside the multiple slots 201 and the connecting portion 202. Are alternately formed.

これによれば、前記スロット201、201’は二重に形成されて前記フランジ20の縁部全体をカバーできるようになって、中心軸を補正するに際して一層簡単で且つ効率的に構成することが好ましい。   Accordingly, the slots 201 and 201 ′ are formed in a double shape so as to cover the entire edge of the flange 20, and can be configured more simply and efficiently when correcting the central axis. preferable.

一方、本発明による施設支柱固定具の中心軸補正装置は、図4及び図5に示すように、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の上端面に結合され、縁部には多数の第1スロット401が等間隔にて形成されて多数の第1連結部402が前記第1スロット401と交互に形成され、中央部には第1固定孔403が形成され、前記中央部の下部面には固定片404が形成される第1フランジ40と、前記第1フランジ40の上側に結合されるが、内側に前記施設支柱100が挿設される空間部が形成され、下部面の中央部には第2固定孔501が形成されて締結片502が前記第2固定孔501と前記第1固定孔403を貫通して前記固定片404に締結され、前記第1フランジ40の前記第1スロット401と第1連結部402に対向して同じ形状に第2スロット503と第2連結部504が形成されてボルト505が前記第1スロット401と前記第2スロット503を貫通してダブルナット506に締結される第2フランジ50と、から構成されることを特徴とする。   On the other hand, as shown in FIGS. 4 and 5, the center-axis correcting device for a facility support fixture according to the present invention includes a large number of facility support fixtures in which the facility support is fitted, and a horizontal cord and a vertical strap. In the center axis correction device of the facility post fixture that is off the central axis in the foundation work of the facility penetrating into the facility, it is coupled to the upper end surface of the facility post fixture 10 and a plurality of first slots 401 are equally spaced at the edge. A plurality of first connecting portions 402 are alternately formed with the first slots 401, a first fixing hole 403 is formed in the central portion, and a fixing piece 404 is formed in a lower surface of the central portion. The first flange 40 and the first flange 40 are coupled to the upper side of the first flange 40, and a space portion into which the facility support column 100 is inserted is formed on the inner side, and a second fixing hole 501 is formed at the center of the lower surface. And the fastening piece 502 is formed in the second fixing hole 5. 1 and through the first fixing hole 403 and fastened to the fixing piece 404, facing the first slot 401 and the first connecting portion 402 of the first flange 40 and having the same shape as the second slot 503 and the first slot. The second connection portion 504 is formed, and the bolt 505 includes the first slot 401 and the second flange 50 that passes through the second slot 503 and is fastened to the double nut 506.

本発明は、地中に貫入した施設支柱固定具10が垂直的に合わずにZ軸方向に対して傾斜した場合にこれを補正するための装置である。前記第1フランジ40と前記第2フランジ50は上下に平行に間隔をおいて結合され、その間隔は前記ボルト505と前記ダブルナット506により調節されて垂直から傾斜した分だけ補正することが可能になる。   The present invention is a device for correcting the case where the facility support fixture 10 penetrating into the ground is not vertically aligned but is inclined with respect to the Z-axis direction. The first flange 40 and the second flange 50 are coupled to each other with an interval in parallel in the vertical direction, and the interval is adjusted by the bolt 505 and the double nut 506 and can be corrected by an amount inclined from the vertical. Become.

すなわち、前記ボルト505と前記ダブルナット506を前記第1フランジ40と前記第2フランジ50の前後方面の4角に形成される前記第1スロット401と前記第2スロット503に締結するが、前記ダブルナット506を用いて中心軸から傾斜した側の間隔を増やし、反対側の間隔を減らすような方式により調節することによりZ軸方向に対して傾斜した分だけ補正して垂直を合わせることになる。   That is, the bolt 505 and the double nut 506 are fastened to the first slot 401 and the second slot 503 formed at the four corners of the front and rear surfaces of the first flange 40 and the second flange 50. By adjusting in such a manner that the interval on the side inclined from the central axis is increased by using the nut 506 and the interval on the opposite side is decreased, the vertical is adjusted by correcting the amount inclined with respect to the Z-axis direction.

一方、本発明による施設支柱固定具の中心軸補正装置は、図6に示すように、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の空間部には前記施設支柱100が嵌設されるが、前記施設支柱固定具10の上部には多数の係合孔101が等間隔にて形成され、前記係合孔101には係合片102が係合されて前記施設支柱100を固定することを特徴とする。   On the other hand, as shown in FIG. 6, the center-axis correcting device for a facility support fixture according to the present invention penetrates a large number of facility support fixtures in which the facility support is fitted into the ground by combining the horizontal cord and the vertical strap. In a center axis correction device for a facility post fixture that is out of the center axis in the foundation work of the facility, the facility post 100 is fitted in the space of the facility post fixture 10. A large number of engagement holes 101 are formed at equal intervals in the upper portion, and an engagement piece 102 is engaged with the engagement holes 101 to fix the facility column 100.

これによれば、前記施設支柱固定具10は、空間部を有する中空円錐状の鋼管体から形成されてハンマーなどにより加圧して地中に貫入するか、あるいは、図6に示すように、外周縁に下端の頂点から所定の高さまで前記ネジ山103が形成され、掘削機などの機械を用いて前記施設支柱固定具10を加圧及び回転して施工される。前記ネジ山103が形成される場合には、前記ネジ山103により回転しながら直接的に地面を掘り込んで地中に埋設できるように形成されて地盤との摩擦力が増大されて支持力が極大化可能であり、前記空間部には前記施設支柱100が挿設される。   According to this, the facility support fixture 10 is formed of a hollow conical steel pipe having a space portion and is pressed by a hammer or the like to penetrate into the ground, or as shown in FIG. The thread 103 is formed on the periphery from the top of the lower end to a predetermined height, and the facility post fixture 10 is pressed and rotated using a machine such as an excavator. When the thread 103 is formed, it is formed so that it can be directly dug into the ground while being rotated by the thread 103 and buried in the ground, and the frictional force with the ground is increased so that the supporting force is increased. The facility support column 100 is inserted into the space portion.

このとき、挿設された前記施設支柱固定具10が地面と垂直的に合わなくて垂直(Z軸)の中心軸から外れた場合に、前記施設支柱100を前記空間部に挿設した後、前記施設支柱固定具10の上部に等間隔にて形成された多数の係合孔101と前記係合孔101に係合される係合片102によって垂直を合わせてZ軸方向に補正することが可能になる。   At this time, when the inserted facility post fixture 10 is not vertically aligned with the ground and deviates from the vertical (Z-axis) central axis, the facility post 100 is inserted into the space, Correction can be made in the Z-axis direction by aligning the vertical by a large number of engagement holes 101 formed at equal intervals on the upper part of the facility support fixture 10 and engagement pieces 102 engaged with the engagement holes 101. It becomes possible.

すなわち、前記施設支柱100は、前記施設支柱固定具10の前記空間部に挿設された後に前記係合孔101に係合される前記係合片102によって支持・固定されるが、垂直(Z軸)の中心軸を補正するためには前記施設支柱固定具10が傾斜した側に形成された係合孔に係合される係合片は前記空間部の内側に一層深く挿入されて締結され、反対側に形成された係合孔に係合される係合片は前記空間部の内側に一層浅く挿入されて締結されることにより、前記施設支柱固定具10の前記空間部に挿設される前記施設支柱100の位置を中心軸に合わせて正確に施工することが可能になる。前記係合孔101と前記係合片102は、図6に示すように、それぞれボルト孔及びボルトから構成されて前記ボルトが前記ボルト孔に締結される。   That is, the facility support column 100 is supported and fixed by the engagement piece 102 engaged with the engagement hole 101 after being inserted into the space portion of the facility support fixture 10, but is vertical (Z In order to correct the central axis of the shaft, the engagement piece engaged with the engagement hole formed on the inclined side of the facility support fixture 10 is inserted deeper into the space and fastened. The engaging piece engaged with the engaging hole formed on the opposite side is inserted into the space portion of the facility support fixture 10 by being inserted and tightened more shallowly inside the space portion. It is possible to accurately construct the facility column 100 so that the position of the facility column 100 is aligned with the central axis. As shown in FIG. 6, the engagement hole 101 and the engagement piece 102 are each composed of a bolt hole and a bolt, and the bolt is fastened to the bolt hole.

一方、本発明による施設支柱固定具の中心軸補正装置は、図8に示すように、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の空間部には連結棒60が嵌設され、前記連結棒60の上端面には内側に前記施設支柱100が嵌設される空間部が形成される支柱連結部30’が結合されるが、前記施設支柱固定具10の上部には多数の係合孔101が等間隔にて形成され、前記係合孔101には係合片102が係合されて前記施設支柱100を固定することを特徴とする。   On the other hand, as shown in FIG. 8, the center-axis correcting apparatus for a facility support fixture according to the present invention penetrates a large number of facility support fixtures in which the facility support is fitted into the ground by combining the horizontal cord and the vertical strap. In the center axis correction device for the facility post fixture that is off the center axis in the foundation work of the facility, a connecting rod 60 is fitted in the space portion of the facility post fixture 10, and the upper end surface of the connecting rod 60 has an inner side. A column connecting portion 30 ′ in which a space portion in which the facility column 100 is fitted is formed is coupled to the facility column 100, and a number of engagement holes 101 are formed at equal intervals on the facility column fixture 10. In addition, an engagement piece 102 is engaged with the engagement hole 101 to fix the facility column 100.

これによれば、前記施設支柱固定具10は、空間部を有する中空円錐状の鋼管体から形成されてハンマーなどにより加圧して地中に貫入するか、あるいは、図8に示すように、外周縁に下端の頂点から所定の高さまで前記ネジ山103が形成され、掘削機などの機械を用いて前記施設支柱固定具10を加圧及び回転して施工される。前記ネジ山103が形成される場合には、前記ネジ山103により回転しながら直接的に地面を掘り込んで地中に埋設できるように形成されて地盤との摩擦力が増大されて支持力が極大化可能であり、前記空間部には前記施設支柱100が挿設される。   According to this, the facility support fixture 10 is formed of a hollow conical steel pipe body having a space portion and is pressed by a hammer or the like to penetrate into the ground, or as shown in FIG. The thread 103 is formed on the periphery from the top of the lower end to a predetermined height, and the facility post fixture 10 is pressed and rotated using a machine such as an excavator. When the thread 103 is formed, it is formed so that it can be directly dug into the ground while being rotated by the thread 103 and buried in the ground, and the frictional force with the ground is increased so that the supporting force is increased. The facility support column 100 is inserted into the space portion.

このとき、挿設された施設支柱固定具が地面と垂直的に合わなくて垂直(Z軸)の中心軸から外れた場合に、前記施設支柱固定具の空間部に前記連結棒60を挿入した後に、前記施設支柱固定具10の上部に等間隔にて形成された多数の係合孔101と前記係合孔101に係合される前記係合片102によって垂直をZ軸方向に補正することが可能になる。   At this time, when the inserted facility support fixture does not vertically align with the ground and deviates from the vertical (Z-axis) central axis, the connecting rod 60 is inserted into the space of the facility support fixture. Later, the vertical is corrected in the Z-axis direction by a large number of engagement holes 101 formed at equal intervals in the upper part of the facility support fixture 10 and the engagement pieces 102 engaged with the engagement holes 101. Is possible.

すなわち、前記連結棒60は、前記施設支柱固定具10の前記空間部に挿入された後に前記係合孔101に係合される前記係合片102によって支持・固定されるが、垂直(Z軸)の中心軸を補正するためには前記施設支柱固定具10が傾斜した側に形成された係合孔に係合される係合片は前記空間部の内側に一層深く挿入されて締結され、反対側に形成された係合孔に係合される係合片は前記空間部の内側に一層浅く挿入されて締結されることにより、前記連結棒60の上端面に形成された前記支柱連結部30’の前記空間部に挿設される前記施設支柱100の位置を中心軸に合わせて正確に施工することが可能になる。前記係合孔101と前記係合片102は、図8に示すように、それぞれボルト孔とボルトから構成されて前記ボルトが前記ボルト孔に締結され、前記支柱連結部30’は前記連結棒60の上側に結合されるが、その挿設される前記施設支柱100の形状に対応して種々の形状に構成することができる。   That is, the connecting rod 60 is supported and fixed by the engagement piece 102 engaged with the engagement hole 101 after being inserted into the space portion of the facility column fixing tool 10, but is vertical (Z-axis). ), The engagement piece engaged with the engagement hole formed on the inclined side of the facility support fixture 10 is inserted deeper into the space and fastened. The strut connecting portion formed on the upper end surface of the connecting rod 60 is engaged with the engaging hole formed on the opposite side, and is inserted into the space portion to be shallower and fastened. It is possible to accurately construct the facility support column 100 inserted in the space portion 30 'in accordance with the center axis. As shown in FIG. 8, the engagement hole 101 and the engagement piece 102 are respectively composed of a bolt hole and a bolt, and the bolt is fastened to the bolt hole. It can be configured in various shapes corresponding to the shape of the facility column 100 to be inserted.

また、本発明による施設支柱固定具の中心軸補正装置は、図7に示すように、前記係合孔101は3つが等間隔にて形成され、前記係合孔101に前記係合片102が係合されることを特徴とする。   Further, as shown in FIG. 7, in the center axis correcting apparatus for a facility support fixture according to the present invention, three of the engagement holes 101 are formed at equal intervals, and the engagement pieces 102 are formed in the engagement holes 101. It is characterized by being engaged.

これによれば、前記係合孔101及び前記係合片102は、2つ、3つ、4つ、5つずつなど多数が等間隔にて形成されて前記施設支柱固定具10の空間部に挿設される前記施設支柱100または前記連結棒60の垂直を補正するが、3つずつである場合の方が、幾何学的に安定的な構造を有しながらも最も簡単に補正することが可能になる。   According to this, a large number of the engagement holes 101 and the engagement pieces 102, such as two, three, four, and five, are formed at equal intervals, and are formed in the space portion of the facility column fixture 10. The verticality of the facility support column 100 or the connecting rod 60 to be inserted is corrected. However, in the case of three each, the correction can be performed most easily while having a geometrically stable structure. It becomes possible.

すなわち、前記係合孔101及び前記係合片102が2つずつである場合には両側から垂直を合わせるものであるため垂直が上手く合わないだけではなく、構造的にも極めて不安定的であり、4つずつ以上である場合には垂直が上手く合うとはいえ、あまりにもその数が多くて垂直を合わせることが容易ではなく、煩雑で且つ複雑になるのに対し、3つずつである場合にこのような作業上の問題と構造的な問題をバランスよく解決することが可能になる。   That is, when there are two engagement holes 101 and two engagement pieces 102, the vertical alignment is performed from both sides, so that the vertical alignment does not match well and the structure is extremely unstable. If there are 4 or more, the verticals will work well, but there are too many and it is not easy to align the verticals, but it is cumbersome and complicated, but it is 3 In addition, it is possible to solve such work problems and structural problems in a balanced manner.

一方、本発明による施設支柱固定具の中心軸補正装置は、図9A及び図9Bに示すように、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10は、内側に前記施設支柱が嵌設される空間部71、81が形成される下部固定具70と上部固定具80とから構成されるが、前記下部固定具70は、下部には外周縁にネジ山73が形成される上広下狭のくさび部74が形成され、前記下部固定具70の上端部に前記上部固定具80の下端部が組み付け可能に形成されることを特徴とする。   On the other hand, as shown in FIGS. 9A and 9B, the center-axis correcting apparatus for a facility support fixture according to the present invention includes a plurality of facility support fixtures in which the facility support is fitted, and a horizontal cord and a vertical strap that are combined into the ground. In the center axis correction device for the facility post fixture that is off the central axis in the foundation work of the facility that penetrates into the facility, the facility post fixture 10 is formed with space portions 71 and 81 into which the facility post is fitted. The lower fixing tool 70 and the upper fixing tool 80 are composed of an upper and lower wedge part 74 having a screw thread 73 formed on the outer periphery at the lower part. A lower end portion of the upper fixture 80 is formed on an upper end portion of the lower fixture 70 so as to be assembled.

これによれば、前記下部固定具70は、前記くさび部74の前記ネジ山73により地盤を掘り込んで容易に地中に貫入することが可能になり、海岸地域、河川地域、湿地、水空間など地盤が弱い軟弱地盤地域において十分な支持力を確保するために一層地中の深くに挿入しようとするとき、前記上部固定具80を前記下部固定具70の上端部に組み付けることにより前記施設支柱固定具10の長さを容易に延ばして、追加的に十分な支持力を確保可能な地盤まで地中に貫入して水平(X−Y面)的に合わない場合を補正することが可能になる。   Accordingly, the lower fixture 70 can easily dig into the ground by the screw thread 73 of the wedge portion 74 and can easily penetrate into the ground. In order to secure a sufficient supporting force in a soft ground area where the ground is weak, such as the above, the facility support column is assembled by assembling the upper fixture 80 to the upper end of the lower fixture 70. It is possible to easily extend the length of the fixture 10 and correct the case where it does not fit horizontally (XY plane) by penetrating into the ground to the ground where sufficient support force can be secured. Become.

また、本発明による施設支柱固定具の中心軸補正装置は、図9A及び図9Bに示すように、前記下部固定具70の上端部には多数の下部溝部75が形成され、前記上部固定具80の下端部には多数の上部突部82が形成されて前記下部溝部75と上部突部82が嵌合するか、あるいは、前記下部固定具70の上端部には多数の下部突部76が形成され、前記上部固定具80の下端部には多数の上部溝部83が形成されて前記下部突部76と上部溝部83が嵌合する。   9A and 9B, a center axis correcting device for a facility support fixture according to the present invention includes a plurality of lower grooves 75 formed at the upper end of the lower fixture 70, and the upper fixture 80. A plurality of upper protrusions 82 are formed at the lower end of the lower fitting portion, and the lower groove 75 and the upper protrusion 82 are fitted together, or a plurality of lower protrusions 76 are formed at the upper end of the lower fixture 70. A plurality of upper grooves 83 are formed at the lower end of the upper fixture 80, and the lower protrusions 76 and the upper grooves 83 are fitted.

これによれば、前記下部固定具70の上端部と前記上部固定具80の下端部は前記下部溝部75と上部突部82、前記下部突部76と上部溝部83により嵌合することにより簡単に組み付けられるような構造に形成されて、前記施設支柱固定具10の長さを容易に延ばし、追加的に十分な支持力を確保可能な地盤まで地中に貫入して水平(X−Y面)が合わない場合を補正することが可能になる。   According to this, the upper end portion of the lower fixture 70 and the lower end portion of the upper fixture 80 are easily fitted by the lower groove 75 and the upper protrusion 82, and the lower protrusion 76 and the upper groove 83. It is formed in a structure that can be assembled, extends the length of the facility support fixture 10 easily, and penetrates into the ground up to the ground where additional sufficient supporting force can be ensured (horizontal (XY plane)). It is possible to correct the case where the values do not match.

また、本発明による施設支柱固定具の中心軸補正装置は、図11A及び図11Bに示すように、前記下部固定具70の上端部と前記上部固定具80の下端部にはフランジ部77、87が形成されて互いにフランジ結合されるが、前記フランジ部77、87は螺旋状に形成されることを特徴とする。   In addition, as shown in FIGS. 11A and 11B, the center axis correcting device for a facility support fixture according to the present invention has flange portions 77 and 87 at the upper end portion of the lower fixture 70 and the lower end portion of the upper fixture 80, respectively. The flange portions 77 and 87 are formed in a spiral shape.

これによれば、前記下部固定具70の上端部と前記上部固定具80の下端部にはフランジ部77、87が形成され、前記フランジ部77、87にはボルト孔が形成されて前記ボルト孔にボルト−ナットを締結することにより互いにフランジ結合されて強固に組み付けられるが、前記フランジ部77、87をネジ山のように螺旋状に形成することにより前記螺旋状のフランジ部77、87は前記施設支柱固定具10を地中に貫入するに際して前記ネジ山73が形成された前記くさび部74と同様に地盤を掘り込んで長さが延ばされた前記施設支柱固定具10を容易に地中に貫入することが可能になる。   According to this, flange portions 77 and 87 are formed at the upper end portion of the lower fixture 70 and the lower end portion of the upper fixture 80, and bolt holes are formed in the flange portions 77 and 87. By fastening bolts and nuts to each other, the flanges are joined to each other and firmly assembled. However, by forming the flange parts 77 and 87 in a spiral shape like a screw thread, the spiral flange parts 77 and 87 are When the facility support fixture 10 is penetrated into the ground, the facility support fixture 10 that has been dug in the ground and extended in the same manner as the wedge portion 74 in which the thread 73 is formed can be easily inserted into the ground. It becomes possible to penetrate into.

また、本発明による施設支柱固定具の中心軸補正装置は、図10Aから図11Bに示すように、前記上部固定具80は外周縁にネジ山84が形成されることを特徴とする。
これによれば、前記上部固定具80もまた、前記下部固定具70と同様に、外周縁にネジ山84が形成される構成であるが、前記上部固定具80が前記下部固定具70に組み付けられてその長さが延ばされた前記施設支柱固定具10を地中に貫入するに際して、前記ネジ山84が地盤を掘り込んで容易に地中に貫入することが可能になる。 Further, the center axis correcting device for a facility support fixture according to the present invention is characterized in that the upper fixture 80 has a thread 84 formed on the outer peripheral edge thereof as shown in FIGS. 10A to 11B.
According to this, the upper fixture 80 is also configured to be formed with a screw thread 84 on the outer peripheral edge in the same manner as the lower fixture 70, but the upper fixture 80 is assembled to the lower fixture 70. When the facility support fixture 10 that has been extended in length is penetrated into the ground, the screw thread 84 can dig into the ground and easily penetrate into the ground.

一方、本発明による施設支柱固定具の中心軸補正装置は、図12及び図13に示すように、施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、前記施設支柱固定具10の上部に一体にまたは結合形成され、前後方面にそれぞれ2つずつのX軸ガイド孔151が形成され、前記X軸ガイド孔151には前記X軸ガイド孔151に沿って前後に移動し、ガイド片ボルト−ガイド片ナット154、155から構成されるガイド片153が取り付けられるX軸ガイドプレート150と、前記X軸ガイドプレート510の上側に左右方面にそれぞれ2つずつのY軸ガイド孔161が形成され、前記Y軸ガイド孔161には前記Y軸ガイド孔161に沿って左右に移動し、前記ガイド片153が取り付けられるY軸ガイドプレート160と、から構成されることを特徴とする。   On the other hand, as shown in FIGS. 12 and 13, the center axis correction device for a facility post fixing device according to the present invention includes a large number of facility support fixtures in which facility posts are fitted, and a horizontal string and a vertical string. In the center axis correction device for the facility post fixture that is off the central axis in the foundation work of the facility penetrating into the facility, it is formed integrally with or connected to the upper portion of the facility post fixture 10 and two X-axes are provided on the front and rear surfaces respectively. A guide hole 151 is formed, and the X-axis guide hole 151 is moved back and forth along the X-axis guide hole 151, and a guide piece 153 composed of guide piece bolt-guide piece nuts 154 and 155 is attached to the X-axis guide hole 151. Two Y-axis guide holes 161 are formed on the left and right sides on the upper side of the shaft guide plate 150 and the X-axis guide plate 510, respectively. Go to the left and right along the hole 161, a Y-axis guide plate 160 in which the guide piece 153 is attached, characterized in that it is composed of.

これによれば、前記X軸ガイドプレート150に形成された前記X軸ガイド孔151と前記Y軸ガイドプレート160に形成されたY軸ガイド孔161は互いに直交するように形成され、前記ガイド片ボルト−ガイド片ナット154、155から構成される前記ガイド片153を前記X軸ガイド孔151に沿って前後(横方向、X軸方向)に移動してX軸方向に外れた分だけ補正し、前記ガイド片153を前記Y軸ガイド孔161に沿って左右(縦方向、Y軸方向)に移動してY軸方向に外れた分だけ補正して前記X軸ガイドプレート150と前記Y軸ガイドプレート160を前記ガイド片ボルト−ガイド片ナット154、155に締結することにより、X軸及びY軸の方向に中心軸を外れた分だけ補正することが可能になり、図12及び図13に示すように、前記施設支柱100を前記Y軸ガイドプレート160の上側に連結部材170により結合して円滑で且つ安定的に設置することになる。   Accordingly, the X-axis guide hole 151 formed in the X-axis guide plate 150 and the Y-axis guide hole 161 formed in the Y-axis guide plate 160 are formed to be orthogonal to each other, and the guide piece bolt -The guide piece 153 composed of the guide piece nuts 154, 155 is moved back and forth (lateral direction, X-axis direction) along the X-axis guide hole 151 and corrected by the amount deviated in the X-axis direction, The X-axis guide plate 150 and the Y-axis guide plate 160 are corrected by moving the guide piece 153 left and right (longitudinal direction, Y-axis direction) along the Y-axis guide hole 161 and deviating in the Y-axis direction. Is fastened to the guide piece bolt-guide piece nuts 154 and 155, so that the amount of deviation from the central axis in the X-axis and Y-axis directions can be corrected. As shown in 3, the facility strut 100 to be installed the Y-axis coupled by a connecting member 170 to the upper guide plate 160 and stably and smoothly.

また、本発明による施設支柱固定具の中心軸補正装置は、図14に示すように、前記ガイド片ナット155はダブルナット156から構成して前記Y軸ガイドプレート160の上下に締結されて前記X軸ガイドプレート150と前記Y軸ガイドプレート160の前後左右の間隔を調節可能にすることを特徴とする。   In addition, as shown in FIG. 14, the center piece correcting device for a facility support fixture according to the present invention is configured such that the guide piece nut 155 is composed of a double nut 156 and is fastened to the top and bottom of the Y-axis guide plate 160. The distance between the front and rear and the left and right of the shaft guide plate 150 and the Y-axis guide plate 160 is adjustable.

これによれば、前記ガイド片ナット155を前記ダブルナット156から構成することにより、前記X軸ガイドプレート150と前記Y軸ガイドプレート160は上下に平行に間隔をおいて結合され、その間隔は前記ダブルナット156を用いて前後方面にそれぞれ2つずつ締結される前記ガイド片153の長さを調節することにより、垂直から傾斜した分だけ補正することが可能になる。すなわち、中心軸を外れて傾斜した側の前記ガイド片153の長さを増やし、反対側の前記ガイド片153の長さは減らすような方式により調節することにより、Z軸方向に対して傾斜した分だけ補正して垂直を合わせることになり、X軸、Y軸、Z軸の方向に中心軸を外れた分だけ補正することが可能になることから、図14に示すように、前記施設支柱100を前記Y軸ガイドプレート160の上側に連結部材170により結合して円滑で且つ安定的に設置することになる。   According to this, by configuring the guide piece nut 155 from the double nut 156, the X-axis guide plate 150 and the Y-axis guide plate 160 are coupled in parallel in the vertical direction, and the distance is By adjusting the lengths of the guide pieces 153 that are fastened to the front and rear surfaces by using the double nuts 156, it is possible to correct the amount by the inclination from the vertical. In other words, the length of the guide piece 153 on the side inclined with respect to the central axis is increased, and the length of the guide piece 153 on the opposite side is adjusted to reduce the length, thereby being inclined with respect to the Z-axis direction. As shown in FIG. 14, the facility support column can be corrected by adjusting the amount of deviation from the central axis in the X-axis, Y-axis, and Z-axis directions. 100 is connected to the upper side of the Y-axis guide plate 160 by a connecting member 170 and is installed smoothly and stably.

一方、本発明はそれに関する最良の構成状態を列挙しているが、本発明はこれに制限されるものではなく、特許請求の範疇を逸脱することなく実施可能であれば、上述した構成例の変更を考慮することができるということはいうまでもない。   On the other hand, the present invention enumerates the best configuration state related to it, but the present invention is not limited to this, and if it can be implemented without departing from the scope of the claims, the configuration example described above can be used. It goes without saying that changes can be taken into account.

10……施設支柱固定具、
101……係合孔、
102……係合片、
103……ネジ山、
20……フランジ、
201、201’……スロット、
202、202’……連結部、
203……固定孔、
204……固定片、
30、30’……支柱連結部、
301……ガイド孔、
302……ガイド片、
40……第1フランジ、
401……第1スロット、
402……第1連結部、
403……第1固定孔、
404……固定片、
50……第2フランジ、
501……第2固定孔、
502……締結片、
503……第2スロット、
504……第2連結部、
505……ボルト、
506……ダブルナット、
60……連結棒、
70……下部固定具、
71……空間部、
73……ネジ山、
74……くさび部、
75……下部溝部、
76……下部突部、
77……フランジ部、
80……上部固定具、
81……空間部、
82……上部突部、
83……上部溝部、
84……ネジ山、
87……フランジ部、
150……X軸ガイドプレート、
151……X軸ガイド孔、
153……ガイド片、
154……ガイド片ボルト、
155……ガイド片ナット、
156……ダブルナット、
160……Y軸ガイドプレート、
161……Y軸ガイド孔、
170……連結部材、
100……施設支柱。 10: Facility support fixture,
101... Engagement hole,
102... Engagement piece,
103 …… Neji,
20 …… Flange,
201, 201 ′ …… slot,
202, 202 ′ …… the connecting portion,
203 ... fixing hole,
204 …… Fixed piece,
30, 30 '…… Staff connecting part,
301 …… Guide hole,
302 …… Guide piece,
40 …… First flange,
401 …… First slot,
402... First connecting part,
403 ....... first fixing hole,
404 …… Fixed piece,
50 …… Second flange,
501: Second fixing hole,
502 …… Fastening piece,
503: Second slot,
504 ... the second connecting part,
505 …… Bolt,
506 …… Double nut,
60 …… Connecting rod,
70 …… Lower fixture,
71 …… Space part,
73 …… Neji,
74 ... Wedge part,
75 …… Lower groove,
76 …… Lower protrusion,
77 …… Flange part,
80 …… Upper fixture,
81 …… Space part,
82 …… Upper protrusion,
83 …… Upper groove,
84 …… Neji,
87 …… Flange part,
150 ... X-axis guide plate,
151 ... X-axis guide hole,
153 ... guide piece,
154 …… Guide piece bolt,
155 …… Guide nut
156 ... Double nut,
160 …… Y-axis guide plate,
161 ... Y-axis guide hole,
170 .. connecting member,
100: Facility support.

Claims (11)

施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、
前記施設支柱固定具(10)の上端面に結合され、縁部には多数のスロット(201)が等間隔にて形成されて多数の連結部(202)が前記スロット(201)と交互に形成され、中央部には固定孔(203)が形成され、前記中央部の下部面には固定片(204)が形成されるフランジ(20)と、
前記フランジ(20)の上側に結合されるが、内側に前記施設支柱(100)が嵌設される空間部が形成され、下部面にガイド孔(301)が形成されてガイド片(302)が前記ガイド孔(301)に沿って移動可能に取り付けられて前記固定孔(203)を貫通して前記固定片(204)に締結され、前記ガイド孔(301)と前記スロット(201)がボルト−ナット締結される支柱連結部(30)と、
を備えることを特徴とする施設支柱固定具の中心軸補正装置。 In the center axis correction device of the facility pillar fixing tool that deviates from the center axis in the foundation work of the facility that penetrates the facility pillar fixing tool into which the facility pillar is fitted with the horizontal string and the vertical string.
It is connected to the upper end surface of the facility support fixture (10), and a plurality of slots (201) are formed at equal intervals on the edge, and a plurality of connecting portions (202) are formed alternately with the slots (201). A flange (20) in which a fixing hole (203) is formed in the central portion, and a fixing piece (204) is formed in a lower surface of the central portion;
The upper part of the flange (20) is coupled, but a space part into which the facility column (100) is fitted is formed on the inner side, a guide hole (301) is formed on the lower surface, and a guide piece (302) is formed. The guide hole (301) is movably attached to the fixing hole (203) and fastened to the fixing piece (204). The guide hole (301) and the slot (201) are bolts- A strut connecting portion (30) to be fastened with a nut;
A center axis correction device for a facility support fixture, comprising: 前記フランジ(20)は、前記多数のスロット(201)と連結部(202)の内側に同じ形状の連結部(202’)とスロット(201’)が交互にそれぞれ形成されることを特徴とする請求項1に記載の施設支柱固定具の中心軸補正装置。   The flange (20) is characterized in that a plurality of slots (201) and slots (201 ') having the same shape are alternately formed inside the slots (201) and the slots (202). The center axis correction device for a facility support fixture according to claim 1. 施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、
前記施設支柱固定具(10)の上端面に結合され、縁部には多数の第1スロット(401)が等間隔にて形成されて多数の第1連結部(402)が前記第1スロット(401)と交互に形成され、中央部には第1固定孔(403)が形成され、前記中央部の下部面には固定片(404)が形成される第1フランジ(40)と、
前記第1フランジ(40)の上側に結合されるが、内側に前記施設支柱(100)が挿設される空間部が形成され、下部面の中央部には第2固定孔(501)が形成されて締結片(502)が前記第2固定孔(501)と前記第1固定孔(403)を貫通して前記固定片(404)に締結され、前記第1フランジ(40)の前記第1スロット(401)と第1連結部(402)に対向して同じ形状に第2スロット(503)と第2連結部(504)が形成されてボルト(505)が前記第1スロット(401)と前記第2スロット(503)を貫通してダブルナット(506)に締結される第2フランジ(50)と、
を備えることを特徴とする施設支柱固定具の中心軸補正装置。 In the center axis correction device of the facility pillar fixing tool that deviates from the center axis in the foundation work of the facility that penetrates the facility pillar fixing tool into which the facility pillar is fitted with the horizontal string and the vertical string.
A plurality of first slots (401) are formed at equal intervals on the edge of the facility support fixture (10), and a plurality of first connection parts (402) are formed in the first slot (10). 401), a first flange (40) in which a first fixing hole (403) is formed in a central portion, and a fixing piece (404) is formed in a lower surface of the central portion;
A space portion into which the facility support column (100) is inserted is formed on the inner side of the first flange (40), and a second fixing hole (501) is formed at the center of the lower surface. The fastening piece (502) passes through the second fixing hole (501) and the first fixing hole (403) and is fastened to the fixing piece (404), so that the first flange (40) has the first flange. A second slot (503) and a second connecting part (504) are formed in the same shape so as to face the slot (401) and the first connecting part (402), and a bolt (505) is connected to the first slot (401). A second flange (50) passing through the second slot (503) and fastened to a double nut (506);
A center axis correction device for a facility support fixture, comprising: 施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、
前記施設支柱固定具(10)の空間部には前記施設支柱(100)が嵌設されるが、前記施設支柱固定具(10)の上部には多数の係合孔(101)が等間隔にて形成され、前記係合孔(101)には係合片(102)が締結されて前記施設支柱(100)を固定することを特徴とする施設支柱固定具の中心軸補正装置。 In the center axis correction device of the facility pillar fixing tool that deviates from the center axis in the foundation work of the facility that penetrates the facility pillar fixing tool into which the facility pillar is fitted with the horizontal string and the vertical string.
The facility strut (100) is fitted in the space of the facility strut fixture (10), and a number of engagement holes (101) are formed at equal intervals on the top of the facility strut fixture (10). A center axis correction device for a facility column fixing tool, wherein an engagement piece (102) is fastened to the engagement hole (101) to fix the facility column (100). 施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、
前記施設支柱固定具(10)の空間部には連結棒(60)が嵌設され、前記連結棒(60)の上端面には内側に前記施設支柱(100)が嵌設される空間部が形成される支柱連結部(30’)が結合されるが、前記施設支柱固定具(10)の上部には多数の係合孔(101)が等間隔にて形成され、前記係合孔(101)には係合片(102)が締結されて前記施設支柱(100)を固定することを特徴とする施設支柱固定具の中心軸補正装置。 In the center axis correction device of the facility pillar fixing tool that deviates from the center axis in the foundation work of the facility that penetrates the facility pillar fixing tool into which the facility pillar is fitted with the horizontal string and the vertical string.
A connecting rod (60) is fitted in the space portion of the facility support fixture (10), and a space portion in which the facility support column (100) is fitted inside the upper end surface of the connecting rod (60). The formed strut connecting portion (30 ′) is coupled, but a plurality of engaging holes (101) are formed at equal intervals in the upper portion of the facility strut fixing tool (10). ), The engaging piece (102) is fastened to fix the facility strut (100). 前記係合孔(101)は3つが等間隔にて形成され、前記係合孔(101)に前記係合片(102)が締結されることを特徴とする請求項4または請求項5に記載の施設支柱固定具の中心軸補正装置。   The said engagement hole (101) is formed in three equal intervals, The said engagement piece (102) is fastened by the said engagement hole (101), The Claim 4 or Claim 5 characterized by the above-mentioned. Center axis correction device for facility support fixtures. 施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、
前記施設支柱固定具(10)は、内側に前記施設支柱が嵌設される空間部(71、81)が形成される下部固定具(70)と上部固定具(80)とから構成されるが、前記下部固定具(70)は、下部には外周縁にネジ山(73)が形成される上広下狭のくさび部(74)が形成され、前記下部固定具(70)の上端部に前記上部固定具(80)の下端部が組み付け可能に形成されることを特徴とする施設支柱固定具の中心軸補正装置。 In the center axis correction device of the facility pillar fixing tool that deviates from the center axis in the foundation work of the facility that penetrates the facility pillar fixing tool into which the facility pillar is fitted with the horizontal string and the vertical string.
The facility support fixture (10) is composed of a lower fixture (70) and an upper fixture (80) in which spaces (71, 81) in which the facility support is fitted are formed. The lower fixture (70) has an upper and lower wedge portion (74) formed with a thread (73) on the outer periphery at the lower portion, and is formed at the upper end of the lower fixture (70). The center axis correction device for a facility support fixture, wherein a lower end portion of the upper fixture (80) is formed so as to be assembled. 前記下部固定具(70)の上端部と前記上部固定具(80)の下端部にはフランジ部(77、87)が形成されて互いにフランジ結合されるが、前記フランジ部(77、87)は螺旋状に形成されることを特徴とする請求項7に記載の施設支柱固定具の中心軸補正装置。   Flange portions (77, 87) are formed at the upper end portion of the lower fixture (70) and the lower end portion of the upper fixture (80) and are flange-coupled to each other. The flange portions (77, 87) The center axis correction device for a facility support fixture according to claim 7, wherein the device is formed in a spiral shape. 前記上部固定具(80)は、外周縁にネジ山(84)が形成されることを特徴とする請求項7または請求項8に記載の施設支柱固定具の中心軸補正装置。   The center axis correction device for a facility post fixture according to claim 7 or 8, wherein the upper fixture (80) is formed with a screw thread (84) at an outer peripheral edge. 施設支柱が嵌設される多数の施設支柱固定具を横紐と縦紐を合わせて地中に貫入する施設の基礎工事における中心軸を外れた施設支柱固定具の中心軸補正装置において、
前記施設支柱固定具(10)の上部に一体にまたは結合形成され、前後方面にそれぞれ2つずつのX軸ガイド孔(151)が形成され、前記X軸ガイド孔(151)には前記X軸ガイド孔(151)に沿って前後に移動し、ガイド片ボルト−ガイド片ナット(154、155)から構成されるガイド片(153)が取り付けられるX軸ガイドプレート(150)と、
前記X軸ガイドプレート(510)の上側に左右方面にそれぞれ2つずつのY軸ガイド孔(161)が形成され、前記Y軸ガイド孔(161)には前記Y軸ガイド孔(161)に沿って左右に移動し、前記ガイド片(153)が取り付けられるY軸ガイドプレート(160)と、
を備えることを特徴とする施設支柱固定具の中心軸補正装置。 In the center axis correction device of the facility pillar fixing tool that deviates from the center axis in the foundation work of the facility that penetrates the facility pillar fixing tool into which the facility pillar is fitted with the horizontal string and the vertical string.
Two pieces of X-axis guide holes (151) are formed on the front / rear surface of the facility support fixture (10) integrally or in combination, and the X-axis guide holes (151) have the X-axis. An X-axis guide plate (150) to which a guide piece (153) composed of a guide piece bolt and a guide piece nut (154, 155) is attached, which moves back and forth along the guide hole (151),
Two Y-axis guide holes (161) are formed on the X-axis guide plate (510) on the left and right sides respectively, and the Y-axis guide hole (161) extends along the Y-axis guide hole (161). A Y-axis guide plate (160) to which the guide piece (153) is attached,
A center axis correction device for a facility support fixture, comprising: 前記ガイド片ナット(155)はダブルナット(156)から構成して前記Y軸ガイドプレート(160)の上下に締結されて前記X軸ガイドプレート(150)と前記Y軸ガイドプレート(160)の前後左右の間隔を調節できるようにすることを特徴とする請求項10に記載の施設支柱固定具の中心軸補正装置。   The guide piece nut (155) is composed of a double nut (156) and is fastened to the top and bottom of the Y-axis guide plate (160) so that the front and rear of the X-axis guide plate (150) and the Y-axis guide plate (160). The center axis correction device for a facility support fixture according to claim 10, wherein the distance between the right and left sides can be adjusted.
JP2009249145A 2009-03-30 2009-10-29 Center axis correction device for facility strut fixing device Withdrawn JP2010236344A (en)

Applications Claiming Priority (4)

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KR2020090003650U KR200458741Y1 (en) 2009-03-30 2009-03-30 Fixing Device for Facilities that is easy to extend length
KR1020090030225A KR101048529B1 (en) 2009-04-08 2009-04-08 Central axis correction device and correction method of fixture
KR1020090062911A KR101057701B1 (en) 2009-07-10 2009-07-10 Central axis correction device and correction method of fixture
KR2020090008938U KR20110000513U (en) 2009-07-10 2009-07-10 A calibration device of center axis of fixing device for facilities

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JP2014122541A (en) * 2012-11-21 2014-07-03 Nippon Steel & Sumitomo Metal Joint structure of piles and erection method of piles
JP2016156449A (en) * 2015-02-24 2016-09-01 株式会社サカタ製作所 Coupling structure and coupling apparatus
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012188824A (en) * 2011-03-09 2012-10-04 Nippon Steel Engineering Co Ltd Pile head joint structure
JP2013194365A (en) * 2012-03-16 2013-09-30 Hory Corp Pile foundation structure
JP2014122541A (en) * 2012-11-21 2014-07-03 Nippon Steel & Sumitomo Metal Joint structure of piles and erection method of piles
JP2016156449A (en) * 2015-02-24 2016-09-01 株式会社サカタ製作所 Coupling structure and coupling apparatus
JP2018009344A (en) * 2016-07-13 2018-01-18 有限会社太悦鉄工 Peg and underground structure
JP7214279B1 (en) 2022-07-14 2023-01-30 鴎 ▲トウ▼ Pile, mount, and mount system for both hard and soft soil
JP2024011525A (en) * 2022-07-14 2024-01-25 鴎 ▲トウ▼ Type pile for hard and soft soil, trestle, and trestle system

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