JP2012102460A - Form support system and construction method for underground structure using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a form support system capable of firmly holding a form by a column and a plurality of support pipes, capable of securing a scaffold for work by a pressure-resistant panel and capable of adjusting a linear dimension in each support pipe relatively easily.SOLUTION: A form timbering 16 in a form support system 10 includes a column 26 abutting on an inner form 11, a bracket 28 fixed to a pressure-resistant panel 25 and a plurality of support pipes 27 fixed obliquely to the column 26 and the bracket 28. The plurality of support pipes 27 are fixed to the column 26 in the lengthwise direction Y of an outer wall body 14 while being spaced from each other by a prescribed dimension, and have length adjustment means capable of adjusting the linear dimension.

Description

  The present invention relates to a formwork support system for supporting a formwork of an underground structure, and more particularly, a formwork support system for supporting a formwork constructed for placing an outer wall of a basement such as a house. It relates to the construction method of underground structures using

  Conventionally, a formwork support system for supporting a formwork of an underground structure used when constructing an underground wall or the like is generally known. For example, Patent Document 1 discloses a formwork using a formwork supporting work including a support column fixed perpendicularly to the pressure platen, and a plurality of support tubes fixed obliquely between the support column and the pressure platen. A support system is disclosed.

JP 2006-169893 A

  According to the formwork support system disclosed in Patent Document 1, the inner formwork assembled perpendicularly to the pressure platen can be supported while maintaining a constant spacing from the outer formwork, A conventional separator is unnecessary, and the workability is excellent.

  However, in such a formwork support system, only one support tube supports it with respect to one support column, so that the lower portion of the support column that is not supported by the support tube and the inner mold that contacts the lower portion are supported. The portion of the frame is in an unstable state, and there is a risk of deformation or jamming. In addition, in order to hold the formwork firmly, when the support column is supported by multiple support pipes, the pressure-resistant panel is filled with fixed parts fixed by the bolts of the multiple support pipes to provide a working scaffold. It becomes difficult to ensure. Moreover, when supporting a support | pillar with a some support pipe | tube, since the length dimension of each support pipe | tube differs, it is necessary to adjust to required length suitably.

  Therefore, the present invention can firmly hold the formwork by the support columns and the plurality of support pipes, can secure a work platform in the pressure platen, and compares the length dimensions of the support pipes. The present invention relates to a formwork support system that can be adjusted easily and a method for constructing an underground structure using the same.

  As means for solving the above-mentioned problems, the present invention relates to an improvement of a form support system including an inner and outer form for placing a concrete frame and a form support for supporting the inner form.

  A feature of the present invention is that the formwork support includes a support that abuts on the inner formwork, a bracket that is fixed to a pressure-resistant panel, and a plurality of supports that are fixed obliquely to the support and the bracket. A plurality of support pipes, the length of the support pipes being fixed to the support column at a given distance in the longitudinal direction of the formwork support system, and the length dimension of which can be adjusted Is to have.

  As another embodiment of the present invention, the support tube is fixed to the support column and has an upper tube having a spiral outer peripheral surface, a lower tube fixed to the bracket, the upper tube, and the An intermediate pipe connected to the lower pipe, and the upper pipe and the intermediate pipe are connected by a connecting pipe with a handle, and the outer peripheral surface of the upper pipe is spirally connected to the lower pipe. The length of the support pipe can be adjusted by inserting the upper pipe into the connecting pipe and the intermediate pipe while being fastened to the inner peripheral surface.

  As another embodiment of the present invention, the lower pipe is formed with a plurality of insertion holes spaced by a predetermined dimension in the longitudinal direction of the lower pipe, and the lower pipe is formed from the lower end of the intermediate pipe. The length dimension of the support pipe can be adjusted by inserting into the inside and bringing the lower end edge of the intermediate pipe into contact with a pin inserted into any of the insertion holes.

  As another embodiment of the present invention, the support column and the bracket are made of channel steel, and a fixing sleeve is formed on the upper end portion and the lower end portion of the support pipe, The support pipe is fixed by inserting the pins into the through holes formed in both side walls of the fixing sleeve and the fixing sleeve with the fixing sleeve interposed in the groove portions of the support column and the bracket, respectively. .

  The present invention also provides a plurality of inner pipes composed of a pair of steel pipes extending in the lateral direction of the underground structure on the inner mold before placing a concrete frame between the inner mold and the outer mold. A fixing member is arranged, a plurality of the support columns are arranged in a state of being spaced apart from each other by a given dimension in the lateral direction of the formwork support system, and in a state where they are in contact with the inner fixing member, The present invention relates to an improvement in the construction method of an underground structure using the formwork support system that fixes the plurality of support pipes in a row in the longitudinal direction of the bracket and fixes the support pipes so as to be substantially perpendicular thereto. .

  According to the formwork support system and the construction method of the underground structure using the same according to the present invention, the inner formwork is firmly supported by attaching a plurality of support pipes to the support columns in contact with the inner formwork. The separator is unnecessary, and it is excellent in workability and can prevent water leakage due to the decay of the separator. Further, since the plurality of support pipes are gathered together with the bracket and fixed to the pressure platen, it is possible to secure a space as a working scaffold.

The schematic of underground space using the formwork support system concerning the present invention. II-II sectional view taken on the line of FIG. The partial exploded perspective view of a formwork support work. FIG. 4 is a partially exploded enlarged view of a region surrounded by an alternate long and short dash line IV in FIG. 1. FIG. 2 is a partially exploded enlarged view of a region surrounded by a one-dot chain line V in FIG. 1.

  As shown in FIGS. 1 to 5, a formwork support system 10 according to the present invention is provided in an underground space formed by excavating the ground, and an outer formwork 11 and an inner formwork 12 that are located on a natural ground side. And an underground structure 14 formed from a concrete frame 13 serving as an underground wall formed by placing concrete between them, and a formwork support 16 for supporting the inner formwork 12.

  The formwork support system 10 has a longitudinal direction Y and a transverse direction X, a part of the underground structure 14 protrudes upward from the ground surface 17, and the inner side surface of the inner formwork 12 has a lateral direction X. A plurality of inner fixing members 18 composed of two extending steel pipes (fabric pipes) are arranged in the longitudinal direction Y and spaced apart by a given dimension. The pair of steel pipes 18 a and 18 b forming the inner fixing member 18 are connected to each other by fastening a foam tie 19 that penetrates the inner mold frame 12 with a nut, and is fixed to the inner mold frame 12. Moreover, in the protrusion site | part 20 which protrudes from the ground surface 17 of the underground structure 14, the outer side fixing member 21 which consists of a pair of steel pipes 21a and 21b extended in the horizontal direction X in an outer side surface is the inner side fixing member 18 located in an inner side surface. It arrange | positions so that the concrete housing 13 may oppose in the thickness direction, and the copper pipes 21a and 21b of the outer side fixing member 21 are mutually connected by the foam tie 19 similarly to the inner side fixing member 18, and are outside type | molds. It is fixed to the frame 11. Further, between the inner fixing member 18 and the outer fixing member 21, a reinforcing steel separator 23 penetrating the concrete housing 13 is disposed. Thus, since the separator 23 is arrange | positioned in the concrete frame 13 in the protrusion part 20 of the underground structure 14 located on the ground, while the space | interval of the inner and outer molds 11 and 12 is kept constant, those Deformation and bending are prevented. For the steel pipes 18a, 18b, 21a, 21b constituting the inner fixing member 18 and the outer fixing member 21, a hollow square pipe having a square cross section is used in addition to a hollow round pipe (single pipe pipe). Can do.

  The formwork support 16 is a column made of channel steel (C-type channel steel) extending substantially perpendicularly from the pressure platen 25 in a state where it is in contact with the inner surface side of the inner formwork 12, that is, the inner fixing member 18. 26, a support pipe 27 formed of a hollow round pipe extending obliquely downward with respect to the column 26, and a bracket 28 fixed to the pressure-resistant panel 25. A plurality of support posts 26 are arranged at a given distance in the transverse direction X of the formwork support system 10, and a plurality of support tubes 27 are fixed to each support post 26 at a given separation in the vertical direction Y. ing. The strut 26 is in contact with the inner fixing member 18 but is not fixed to them, and is anchored by an anchor bolt 30 that penetrates a bottom surface (an angle attached by welding when there is no bottom surface) located at the lower end thereof. The pressure platen 25 is fixed.

  The support pipe 27 includes an upper pipe 31 having a helical outer peripheral surface 30 fixed to the support 26, an intermediate pipe 33 connected to the upper pipe 31 via a connection pipe 32, an intermediate pipe 33 and a pin 34. It is comprised from the downward pipe | tube 35 fixed via. The bracket 28 is fixed to the pressure-resistant board 25 through a pair of anchor bolts 36 inserted through the through holes on the bottom surface.

  As shown in FIG. 3, the upper pipe 31 and the intermediate pipe 33 are connected via a connecting pipe 32 with a handle 37. The connecting pipe 32 is formed of a ring-shaped steel material having a diameter larger than that of the upper pipe 31 and substantially the same size as that of the intermediate pipe 33. Specifically, the lower end portion of the upper pipe 31 is used. On the 31a side, the spiral outer peripheral surface 30 and the threaded portion 38 formed on the inner peripheral surface of the connecting pipe 32 are fastened, and the upper end edge 39 of the intermediate pipe 33 is in contact with the end edge 32a of the connecting pipe 32. It touches. Further, since the diameter of the upper pipe 31 is smaller than the diameter of the intermediate pipe 33, the handle 37 of the connecting pipe 32 is operated so that the lower end portion 31 a of the upper pipe 31 enters the connecting pipe 32 and the intermediate pipe 33. The overall length of the support tube 27 can be reduced. As described above, the support tube 27 includes the first length adjusting means 40 including the spiral outer peripheral surface 30 of the lower end portion 31 a of the upper tube 31 and the connecting tube 32 with the handle 37. The overall length dimension can be adjusted. A fixing sleeve 42 extending in the width direction is formed at the upper end of the upper pipe 31.

  As shown in FIG. 4, a pair of through-holes 44 that are opposed to each other are formed on both sides facing each other in the lateral direction X of the support column 26 so as to be spaced apart by a given dimension in the longitudinal direction Y. A fixing sleeve 42 for the upper pipe 31 is interposed in the groove 46 so as to be positioned between the pair of through holes 44. The support column 26 and the upper pipe 31 are connected by a pin 48 inserted through the through hole 44 and the fixing sleeve 42. In this way, the upper pipe 31 is connected to the column 26 via the pin 48 inserted through the fixing sleeve 42, so that the upper tube 31 can be rotated in the longitudinal direction Y, and the support tube 27 is connected to the column 26 with respect to the column 26. The tilt angle can be changed freely.

  As shown in FIGS. 3 and 5, the diameter of the intermediate tube 33 is larger than that of the lower tube 35, and the intermediate tube 33, the lower tube 35, and the upper tube 35 are inserted into the intermediate tube 33. Are concatenated. Specifically, the lower pipe 35 is formed with a plurality of insertion holes 50 that are spaced apart by a given dimension in the longitudinal direction, and by inserting the pins 34 into the insertion holes 50, The lower end edge 33a abuts on the pin 34 and the downward movement is restricted. As described above, the support pipe 27 has the second length adjusting means 51 configured by the insertion hole 50 of the lower pipe 35 and the pin 34 inserted through the insertion hole 50, and the pin 34 is appropriately inserted into the predetermined insertion hole 50. By doing so, the length dimension of the entire support tube 27 can be freely adjusted. A fixing sleeve 52 extending in the width direction is formed at the lower end of the lower pipe 35. Although not shown, the pin 34 may be fastened by a bolt and a nut.

  As shown in FIG. 5, the bracket 28 is formed of the same steel material as that of the support column 26, that is, a channel steel material. A pair of insertion holes 55 facing each other are formed at both side portions 54 erected from the bottom portion with a given dimension in the longitudinal direction, and between the pair of insertion holes 55 of the groove portion 56, A fixing sleeve 52 is interposed. Each lower pipe 35 is connected to the bracket 28 via a pin 57 inserted through the insertion hole 55 of the bracket 28 and the fixing sleeve 52.

  Here, the assembly procedure of the mold support system 16 will be described. First, after the outer mold 11 and the inner mold 12 are constructed and a plurality of inner fixing members 18 are arranged on the inner surface of the inner mold 12, The column 26 is held substantially perpendicular to the pressure plate 25 in a state where it is in contact with the inner fixing member 18, and is fixed to the pressure plate 25 via the anchor bolt 30. Next, a bracket 28 is arranged at a position spaced apart from the support 26 by a given dimension inward of the underground structure 14 and fixed to the pressure-resistant panel 25. The bracket 28 is arranged in a row in the longitudinal direction in a plurality of downward directions. After the pipe 35 is attached, for each of the attached lower pipes 35, the approximate distance between the pipe 35 and the through hole 44 of the column 26 is measured, and the pin 34 is inserted into an appropriate insertion hole 50 of the lower pipe 35 so as to be intermediate. Tube 33 is connected to lower tube 35. Next, the upper pipe 31 and the connecting pipe 52 are fastened with the end edge 32 a of the connecting pipe 32 and the upper end edge 39 of the intermediate pipe 33 in contact with each other, and the upper pipe 31 is operated while operating the handle 37 of the connecting pipe 52. The lower end portion 31a of the support tube 27 is inserted into the intermediate tube 33 and the length is adjusted, so that the entire length of the support tube 27 is adjusted to an appropriate length as the separation dimension between the support column 26 and the bracket 28. . After assembling the formwork support by such a procedure, the concrete structure 13 is placed between the outer formwork 11 and the inner formwork 12 to construct the underground structure 14.

  As described above, after the approximate length of the support tube 27 is adjusted by the second length adjusting unit 51, the length of the support tube 27 is further finely adjusted by the first length adjusting unit 40, so that the support tube 27 is appropriately required. Therefore, even if the same constituent member is used for each support pipe 27, each support pipe 27 can be adjusted to a suitable length and used. Specifically, in the first length adjusting means 40, the length of the support tube 27 can be adjusted by the length substantially the same as the length dimension of the upper pipe 31, and the second length adjusting means. 51, the length of the support pipe 27 can be adjusted by the length substantially the same as the length dimension of the lower pipe 35. Therefore, the length dimension of the upper pipe 31 and the length of the lower pipe 33 as the whole support pipe 27 The length dimension corresponding to the length dimension can be freely adjusted.

  According to the formwork support system 10 of the present invention, since the inner formwork 12 is securely supported by the formwork supporter 16 while maintaining a constant interval in the underground space, a conventional separator is not required, The number of parts is small and the structure is simple, and there is no risk of water leakage due to rusting or decay of the separator after construction.

  Further, according to the formwork support system 10 of the present invention, a plurality of support pipes 27 can be combined into one bracket 28 and fixed to the pressure plate 25, so that a necessary space is provided between the formwork supporters 16. Can be secured. In other words, conventionally, a formwork supporting work consisting of a plurality of support pipes is known, but since each pipe is fixed to a pressure platen, the pressure platen is filled with pipe fixing parts for work. Although it was difficult to secure a scaffold, according to the present invention, a plurality of support tubes 27 fixed to the support column 26 can be fixed together in a row on the bracket 28, so that the work can be performed. Sufficient scaffold can be secured.

Referring again to FIG. 2, various dimensions of the formwork support 16 will be described. When a general detached underground space is constructed (height is about 2.4 m), the height l of the column 26 is set. ₁ is about 1.8 to 2.4 m, the length dimension l ₂ of the uppermost support tube 27 is about 3.0 to 3.5 m, and the length dimension l ₃ of the lowermost support tube 27 is about 1.5～2.0M, separation dimension _{l 4} from post 26 to the rear end of the bracket 28 may be about 2.2～3.0M. In such a case, various dimensions of the members constituting the support pipe 27, that is, the length of the upper pipe 31 is about 20 to 50 cm, and the length of the intermediate pipe 33 is about 1.5 to 2.5 m. The length of the lower tube 35 can be about 30-50 cm. In the present embodiment, four support pipes 27 are fixed to the column 26 so as to be substantially evenly spaced from each other. However, depending on the size of the underground structure 14 and the size of the column 26, The inner mold 12 may be supported by fixing the necessary number of support tubes 27 as described above or below between the support column 26 and the bracket 28.

DESCRIPTION OF SYMBOLS 10 Formwork support system 11 Outer formwork 12 Inner formwork 13 Concrete frame 14 Underground structure 16 Formwork support 18 Inner fixing member 25 Pressure-resistant board 26 Support column 28 Support pipe 28 Bracket 30 Upper pipe outer peripheral surface 31 Upper pipe 32 Connection Tool 33 Intermediate pipe 34, 48 Pin 35 Lower pipe 37 Handle 40 First length adjusting means 42, 52 Fixing sleeve 51 Second length adjusting means X Horizontal direction Y Vertical direction

Claims (5)

In a formwork support system including an inner and outer formwork for placing a concrete frame, and a formwork support for supporting the inner formwork,
The formwork support includes a support that abuts on the inner formwork, a bracket that is fixed to a pressure platen, and a plurality of support pipes that are obliquely fixed to the support and the bracket. The form is characterized in that the pipe is fixed to the support column at a given distance in the longitudinal direction of the form support system, and has a length adjusting means capable of adjusting its length. Support system.   The support tube is fixed to the support column and has an upper tube having a spiral outer peripheral surface, a lower tube fixed to the bracket, and an intermediate portion connected between the upper tube and the lower tube. The upper pipe and the intermediate pipe are connected by a connecting pipe with a handle, and the upper pipe is fastened while the outer peripheral surface of the upper pipe is fastened to the spiral inner peripheral surface of the connecting pipe. The formwork support system according to claim 1, wherein a length dimension of the support pipe can be adjusted by inserting the inside of the connecting pipe and the intermediate pipe.   The lower pipe is formed with a plurality of insertion holes spaced apart by a predetermined dimension in the longitudinal direction of the lower pipe, and the lower pipe is inserted into the lower pipe from the lower end thereof, and the lower end of the intermediate pipe is inserted therein. The formwork support system according to claim 1 or 2, wherein a length dimension of the support tube can be adjusted by bringing an edge into contact with a pin inserted into one of the insertion holes.   The support column and the bracket are formed of channel steel, and a fixing sleeve is formed on the upper end portion and the lower end portion of the support tube, and the support tube includes the fixing sleeve and the support sleeve, respectively. The mold according to any one of claims 1 to 3, wherein the mold is fixed by inserting a pin through a through hole formed in both side walls thereof and the fixing sleeve, and being interposed in a groove between the bracket and the bracket. Frame support system.   Before placing a concrete frame between the inner mold and the outer mold, a plurality of inner fixing members made of a pair of steel pipes extending in the lateral direction of the underground structure are arranged on the inner mold, Are arranged in a state where they are spaced apart from each other by a given dimension in the lateral direction of the formwork support system, and are substantially perpendicular to the pressure platen in a state where they are in contact with the inner fixing member. The construction method of the underground structure using the said formwork support system which fixes and arranges the lower end part of these support pipes in a line in the length direction of the said bracket.

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