JP2018178362A - Counter-weight block construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a construction method for imparting a counter-weight to a steel pipe pile in which one end side is joined to another end side of a transverse beam which receives a weight of a structure and hit in a ground through a mouth pipe while shortening time.SOLUTION: A counter-weight block construction method for imparting a counter-weight to a steel pipe pile in which one end side is joined to another end side of a transverse beam which receives a weight of a structure and hit in a ground through a mouth pipe includes: fixing a falling lid to the steel pipe pile position in the mouth pipe; disposing a plurality of concrete blocks along an inner peripheral surface of the mouth pipe; and injecting and solidifying ballast crushed stone and cement milk inside the mouth pipe surrounded by the disposed concrete blocks.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a counterweight block method.

  In order to improve the railway facilities, steel pipe piles may be drilled near the track or on the platform. In order to prevent the impact of the steel pipe pile on the track and the sinking of the home, the mouth pipe is installed in advance prior to the placement of the steel pipe pile.

  In recent years, it has been urgent to install a home door on an existing home for the safety of passengers. And also at the time of the home door installation to the fill type home, the mouth pipe is installed in advance to prevent the sinking of the home and drive the steel pipe pile.

  FIG. 1 is a schematic cross-sectional view for explaining the outline of the earth type home. In FIG. 1, arrow A corresponds to the home side, and arrow B corresponds to the track side. The L-shaped retaining wall 3 forms a home floor 2 on the earth-retained fill 1.

  When installing a home door on such an existing home, a steel pipe pile is driven on the home side, joined to the steel pipe pile, and the horizontal girder is disposed so as to extend to the track side to support the home door. It is constructed.

  FIG. 2: is a cross-sectional schematic diagram in the case of installing a home door in this emplacement type | mold home. As in FIG. 1, arrow A corresponds to the home side, and arrow B corresponds to the track side.

  In FIG. 2, the steel pipe pile 7 is driven into the embankment 1 through the mouth pipe 8 installed in advance to prevent the fall of the mouth.

  Furthermore, the cross beam 6 is installed so that one end side is connected to the steel pipe pile 7 driven in the filling 1 and the other end side can be placed on the L-shaped retaining wall 3. Next, the decorative board 5 leveled with the home floor 2 is disposed on the cross beam 6 at the tip of the home, and the home door 4 is installed thereon.

  Here, as a concept of the design of installing the home door, it is necessary to perform stable calculation of the foundation structure in consideration of wind load, thrust in the X direction with respect to the home door 4 due to passenger's leaning, or the like. That is, although the pile originally supports the weight of the structure, it is expected that the pile will resist pulling out from its function at the time of a collision, wind pressure, or an abnormality such as an earthquake, but generally the safety factor at the time of design And a large resistance value can not be expected.

  In particular, when the overhang amount α from the center of the L-shaped retaining wall as shown in FIG. 2 is large, a pulling force is generated in the steel pipe pile 7 by the thrust to the home door 4.

  In order to cope with this, it is necessary to install a counterweight. As one method, until now, fresh concrete was placed in the mouth pipe 8 and used as a counterweight.

Japanese Patent Application Publication No. 2003-118990 Japanese Patent Application Laid-Open No. 2003-81142 JP, 2005-60093, A JP 2008-273650 A

  As described above, there have been various disadvantages in the design specifications of the counterweight by the conventional placement of fresh concrete. For example, it is difficult to purchase fresh concrete due to the small amount of cast concrete being placed in a short time at night when railways are stopped, and also it is a land track crane accompanied by truck transport and hopper cast. And so on. Furthermore, since it takes time to place it, it is also inconvenient in terms of quality control.

  Therefore, the object of the present invention is to solve the above-mentioned various disadvantages, shorten the time, one end is coupled to the other end of the cross beam receiving the weight of the structure, and is driven into the soil through the mouth pipe Provide a method for applying counterweight to steel pipe piles.

  A first aspect of the present invention to solve the problems of the present invention is a counterweight block method of giving a counterweight to a column to be driven in a thin walled steel pipe serving as a mouth pipe or a base steel pipe, The drop lid is fixed to the column located in a pipe or thin-walled steel pipe, and a plurality of concrete blocks of a predetermined shape are arranged along the inner peripheral surface of the mouth pipe or thin-walled steel pipe It is characterized in that crushed stone and cement milk are filled and solidified inside the mouth pipe or thin-walled steel pipe.

  The second aspect of the invention for solving the problems of the present invention is that one end side is connected to the other end side of the cross girder receiving the weight of the structure, and a counterweight is applied to the steel pipe pile driven in the soil through the mouth pipe. A counterweight block construction method, in which a dropping lid is fixed to a steel pipe pile located in the mouth pipe, a plurality of concrete blocks having a predetermined shape are arranged along the inner circumferential surface of the mouth pipe, and surrounded by the arranged concrete blocks And filling and solidifying ballast crushed stone and cement milk in the inside of the mouth pipe.

  In the first aspect of the first or second aspect for solving the problems of the present invention, in the first or second aspect, the plurality of concrete blocks are fan-shaped at a predetermined angle and have a fan-like shape along the inner wall of the mouth pipe It is a block having a surface and a predetermined height, and is stacked in multiple stages on the drop lid.

  In a second form of the first or second aspect for solving the problems of the present invention, the plurality of concrete blocks have a substantially trapezoidal cross section corresponding to the height from the drop lid to the upper end of the mouth pipe It is a block having a length and is arranged in a plurality of rows on the dropping lid.

  In the first aspect or any one of the first to third modes for solving the problems of the present invention, the structure is a home door, and the steel pipe pile is rotatably driven in the soil of the fill type home. It is characterized by being.

  In the first aspect or any one of the first to fourth modes for solving the problems of the present invention, the concrete is formed in a space formed by the relationship between the mouth pipe and the shape of a steel pipe pile located in the mouth pipe. The shape of the block is matched to minimize the crushed stone and cement milk.

  According to the above-described means, there is provided a counterweight block construction method in which a drop lid is installed after pile driving by a steel pipe pile driving machine, and a load is reliably transmitted to the steel pipe pile and completely completed on site.

It is a cross-sectional schematic diagram explaining the outline of a fill type home. It is a cross-sectional schematic diagram in the case of installing a home door in a fill type home. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the schematic cross section of the steel pipe pile made into the object of the counter weight block construction method according to this invention. It is a schematic diagram which expands and shows the relationship between the opening pipe | tube in FIG. 3, and the steel pipe pile of uppermost part. It is a figure explaining the 1st example of a counter weight block construction method according to the present invention. It is a perspective view of a fan circle shaped block. It is a figure explaining the 2nd example of a counter weight block construction method according to the present invention.

  An embodiment of the present invention will be described below with reference to the drawings. The drawings are for the understanding of the present invention and the scope of protection of the present invention is not limited to such illustrated embodiments but extends to the description of the claims and the equivalents thereof.

  FIG. 3 is a view showing a schematic cross section of a steel pipe pile to be installed in the counter weight block method according to the present invention.

  A plurality of steel pipe piles 7b are inserted and rotated and buried in the embankment 1 through the mouth pipe 8 embedded first, and the steel pipe piles 7a to be drilled first and the upper part thereof depending on the depth.

  FIG. 4: is a schematic diagram which expands and shows the relationship between the mouth pipe 8 in FIG. 3, and the steel pipe pile 7b of uppermost part.

  In the conventional construction method, fresh concrete is filled on the ground surface of the bottom of the mouth pipe 8, and the inside of the mouth pipe 8 is filled and fixed with the fresh concrete to form a counterweight.

  In contrast, in the method according to the present invention, a pre-formed concrete block is inserted into the mouth tube to form a counterweight.

  For this reason, in the construction method according to the present invention, the dropping lid stopper member 71 is fixed to the steel pipe pile 7b at the top near the filling surface. That is, in the vicinity of the bottom portion of the mouth pipe 8 illustrated in a transparent manner, the dropping lid 8a is placed on the dropping lid stopper member 71 fixed to the steel pipe pile 7b.

  FIG. 5 is a view for explaining a first embodiment of a counterweight block construction method according to the present invention. In FIG. 5, (1) is a schematic cross-sectional view of the mouth pipe portion. The transverse girder 6 is coupled to the steel pipe pile 7 b in the direction perpendicular to the drawing.

  In this embodiment, a fan-shaped block of concrete formed in advance is used.

  FIG. 6 is a perspective view of this fan-shaped block. A fan-shaped block 10 having a rectangular cross section and having a fan-shaped open at an angle of about 145 ° and having a circular side corresponding to the inner circumference of the mouth tube 8 is formed. The fan-shaped block 10 is stacked in four stages in the mouth pipe 8 as an example.

  Referring back to FIG. 5, (2) and (3) are schematic views as viewed from the upper side of the mouth tube. (2) is a top view of the area corresponding to the lower part of the cross beam 6, (3) is a top view of the area corresponding to the upper part of the cross beam 6.

  In FIG. 5 (2), with the cross beam 6 coupled to the steel pipe pile 7 b extending from the mouth pipe 8, along the inner circumference of the mouth pipe 8, a pair of fan-shaped blocks 10 from both sides of the cross beam 6. Arrange two stacks.

  Next, the pair of fan-shaped blocks 10 are rotationally moved in the arrow direction so that the one end face 10 a is located below the cross beam 6. Thereby, the insertion opening 11a of the crushed stone for the ballast and the cement milk 9 is secured.

  The crushed stone and cement milk 9 are filled from both sides of the insertion port 11a and the transverse girder 6 thus secured, and in the lower half of the mouth pipe 8, a region surrounded by the fan-circular block 10 and the insertion port 11a It can be solidified by filling.

  Next, in FIG. 5 (3), a pair of fan-shaped blocks 10 are further stacked and arranged along the inner circumference of the mouth pipe 8 for two steps. At this time, one end surface 10b of the pair of fan-shaped blocks 10 is made to correspond to the insertion port 11b formed on the side opposite to the insertion port 11a of the previous ballast.

  The crushed stone and cement milk 9 are filled from both sides of the insertion opening 11b and the cross beam 6 formed in this way, and in the upper half of the mouth pipe 8, a region surrounded by the fan-circular block 10 and the insertion opening 11b It can be solidified by filling. Further, crushed stone and cement milk 9 can be filled and solidified to cover the steel pipe pile 7 and the cross girder 6.

  FIG. 7 is a view for explaining a second embodiment of the counterweight block construction method according to the present invention. This embodiment is characterized in that a plurality of trapezoidal pillar concrete blocks are used.

  That is, as shown in FIG. 7 (2), the concrete block in this embodiment has a substantially trapezoidal cross section, and has a length corresponding to the height from the drop lid 8a to the upper end of the mouth pipe 8 It is.

  A plurality of trapezoidal blocks 10 are arranged along the inner wall of the mouth tube 8. However, the trapezoidal block 10 is not disposed on a part of the inner wall of the mouth pipe 8 that intersects the cross girder 6, and it is used as an insertion opening 11c for crushed stone and cement milk.

  Ballast crushed stone and cement milk 9 are filled from the insertion port 11c, and the inside of the mouth pipe 8 and the insertion port 11c are filled with the trapezoidal columnar block 10 and crushed stone and cement milk 9. This forms a counter block of a predetermined weight.

  In the description of the above embodiment, it has been described that the concrete block 10 shown in FIG. 6 or 7 is inserted into the mouth pipe 8 and the space is filled with crushed stone and cement milk 9. However, by matching the shape of the concrete block to the void formed by the shape of the mouth pipe 8 and the steel pipe pile 7, it is possible to minimize the filling amount of crushed stone and cement milk or eliminate the need for filling them. It is.

  The application of the counterweight block according to the invention has now been described for a steel pipe pile, one end of which is connected to the other end of the cross beam which receives the weight of the structure and which is driven into the soil through the mouth pipe. Application of is not limited to such cases.

  That is, there is a method in which a thin-walled steel pipe is used as a base steel pipe and a column body such as an electric column is embedded in the base steel pipe, and concrete is injected between the steel pipe and the column body to fix the column body. For example, in the case of a utility pole as a column body, a pulling force or a pulling-out force is given by the weight of a wire or the like to be supported. Therefore, by pouring and solidifying the concrete, it resists the pulling force or drawing force on the column. However, there is a disadvantage that it takes time for the construction period due to pouring and solidification of the concrete.

  However, the present invention is also applicable to such a method. That is, instead of the concrete injected between the foundation steel pipe and the column body, the drop lid is disposed on the steel pipe pile located in the foundation steel pipe, and a plurality of concrete blocks having a predetermined shape are disposed. Furthermore, the work period can be shortened by filling and solidifying crushed stone and cement milk in the inside of the base steel pipe surrounded by the concrete block.

1 Fill 2 Home floor 3 L type retaining wall 4 Home door 5 Decorative board
6 Horizontal girder 7, 7b Steel pipe pile 7a Feathered steel pipe pile 71 Drop lid stopper 8 Mouth pipe
8a Drop lid 9 Crushed stone for cement and cement milk 11a-11c Ballast insertion opening

Claims (6)

A counterweight block method that applies a counterweight to a column that is installed in a thin-walled steel pipe that serves as a base pipe or a base pipe.
The drop lid is fixed to the column located inside the mouth pipe or thin-walled steel pipe,
A plurality of concrete blocks having a predetermined shape are disposed along the inner peripheral surface of the mouth pipe or thin-walled steel pipe,
The crushed stone and cement milk are filled and solidified in the inside of the mouth pipe or thin-walled steel pipe surrounded by the arranged concrete block,
Counter weight block method characterized by A counterweight block construction method in which one end side is connected to the other end side of the horizontal girder receiving the weight of the structure, and a counterweight is applied to a steel pipe pile driven in the soil through the mouth pipe,
Fix the drop lid to the steel pipe pile located in the above-mentioned mouth pipe,
A plurality of concrete blocks having a predetermined shape are disposed along the inner circumferential surface of the mouth pipe,
Crushed stone and cement milk are filled and solidified in the inside of the mouth pipe surrounded by the arranged concrete block,
Counter weight block method characterized by In claim 1 or 2,
The plurality of concrete blocks are a block having a predetermined height and a fan-shaped surface which opens in a fan-like manner at a predetermined angle and which follows the inner wall of the mouth pipe or thin-walled steel pipe,
Stacked in multiple stages on the drop lid,
Counter weight block method characterized by In claim 1 or 2,
The plurality of concrete blocks are blocks having a substantially trapezoidal cross section and a length corresponding to the height from the drop lid to the upper end of the mouth pipe,
Arranged in rows on the drop lid,
Counter weight block method characterized by In claim 2,
The structure is a home door, and the steel pipe pile is rotatably driven in the soil of the fill type home.
Counter weight block method characterized by In any one of claims 1 to 5,
Matching the shape of the concrete block to the void formed by the relationship between the mouth pipe or thin-walled steel pipe and the shape of the steel pipe pile located in the mouth pipe or thin-walled steel pipe to minimize the crushed stone and cement milk
Counter weight block method characterized by

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