KR200370135Y1 - Forms for edge girder construction - Google Patents

Abstract

The present invention relates to a formwork structure for the construction of the rim beam of the retaining wall, and in particular, after installing the bracket at each position of the retaining wall, the end of the support girder and intermediate beam reinforcement beam of H-beam steel beam through the supporting beam on the bracket After supporting the multiple columns of joists with the support means on the support girders and the intermediate beam reinforcement beams and the separate brackets of the retaining walls, and placing them along the rim beam forming space, the wire mesh as a formwork structure for forming each side of the rim beams The mold is made by installing on the joists.

According to the present invention, since the plywood formwork and the copper bar are unnecessary, the problem caused by its use is eliminated, and since the end is supported and permanently embedded in the basement retaining wall, the support girder and the intermediate beam reinforcement beam are supported by the formwork or the upper support girder. There is no need to hang on. In addition, the use of reinforcing bars and stud bolts in the rim beams is greatly reduced, as well as simple reinforcing and assembly of the reinforcing bars, which improves workability and economical efficiency. It can be used to improve the construction and shorten the air, and has the advantage of economically designing the rim beam height regardless of the height of the support girder or intermediate beam reinforcement beam.

Description

Forms for edge girder construction

The present invention relates to a formwork structure for the construction of the rim beam of the retaining wall, and more specifically, after installing the bracket at each position of the retaining wall, the support beam and the intermediate beam reinforcement of the H-beam steel frame beam through the support beam on the bracket After supporting the end of the beam, and supporting the joules of the multi-row with the support means on the support girder and the intermediate beam reinforcement beam and a separate bracket of the retaining wall, placed along the rim beam forming space, formwork for forming each side of the rim beam The present invention relates to a formwork structure in which a wire mesh formwork is installed on the joists.

In general, there are two ways to build underground structures.

After the earthquake work on the ground where the underground structure is constructed, install the temporary facility to support the earthquake while excavating the ground, take out all the earth and sand, and construct the structure from the bottom floor, After the construction of the first-floor structure, using the structure as a brace for excavation, the reverse pour method is used to construct the structure while excavating the ground from the top to the bottom.

In recent years, underground construction has been intensifying in order to maximize land use. In particular, when the construction is carried out by the net pouring method, it is not only visually unstable as well as the occurrence of cracks due to the risk of earthquake collapse or settlement of surrounding buildings. Due to various problems such as lengthening, in recent years, a lot of reverse casting methods have been developed and widely applied.

Since the reverse casting method is a method of constructing the ground structure from the ground floor to the underground floor when constructing the underground structure, the construction of the underground structure and the ground structure can proceed at the same time, and the floor of the ground floor can be used as a workshop. This is unnecessary and has the advantage of being able to work with solid formwork.

Such a reverse casting method involves placing concrete slabs and beams on the ground while the ground is stopped (concrete on grade), and excaving the ground to some extent, selecting the ground, and then placing the clubs and installing the formwork to place the concrete. (Form on Supporting) and the method of placing concrete by suspending form support girders for form support on the upper concrete slab which is pre-constructed instead of erecting clubs for forming formwork. Construction method).

On the other hand, reinforced concrete rim beam which serves as a strip or a joining girder is installed at the outer boundary portion where the wall and the floor slab meet during the reverse casting.

Here, the conventional formwork configuration and operation for the reinforced concrete rim beam construction will be described with reference to the following drawings.

1A is a cross-sectional view showing a state of installation of a conventional formwork for reinforced concrete rim beam construction, Figure 1b is a cross-sectional view showing a state in which the construction of the reinforced concrete rim beam is completed.

Figure 1a shows the concrete during curing, Figure 1b shows the concrete after curing, these figures are cross-sectional views at the position where the support girder is installed.

In FIG. 1A, reference numeral 2 denotes an H-pile, which is a thumb pile, ie a vertical steel beam, which is vertically constructed in the retaining wall 1.

As is well known, there are soil cement walls (SCW) and cast in-place piles (CIP) as mainstream walls, and they usually use H-files as thumb piles. It serves as a vertical bending member that directly supports the earth pressure and the hydraulic pressure on the back.

For the construction of the rim beam, as shown in the prior art, after the construction of the retaining wall (1) and the pit work first, and after casting the discarded concrete (3) to install the clubs (4) to support the formwork .

Here, the lumber 5, which is arranged long in the transverse direction with respect to the longitudinal direction of the rim beam to be constructed, is supported by a plurality of copper wheels 4, and the rim beam is formed on the plywood formwork 6 when the rim beam is formed. ) Is horizontally arranged and supported, and the horizontal plywood formwork, ie, the formwork lower plate 6, is fixed and vertically supported by plywood formwork (formwork side plates, not shown) for forming the side beams.

At this time, the lumber (5) is arranged at a predetermined interval along the longitudinal direction of the rim beam to be constructed by a plurality, each of the angular materials (5) are all supported by a plurality of clubs (4).

In addition, reference numeral 7 denotes a support girder which is a steel frame structure for supporting the formwork structure (for example, the deck plate; 15) for the slab construction, the end of the support girder 7 is embedded plate (embedded plate; 9) is vertically coupled by welding and / or fixing bracket 9a and fastening member 9b.

In this way, in the part where the support girder 7 is installed, the embedded plate 8 serves as a formwork for forming the side edges of the rim beam, and at the same time, the structure is coupled to the rim beam 1a in the support girder 7.

And, Figure 1a is a longitudinal cross-sectional view at the position where the support girder 7 is installed, plywood formwork for forming the side beams, that is, the formwork side plate is not shown, this formwork side plate is the longitudinal direction of the edge beam to be constructed The length of the embedded plate 8 is installed along both sides, which forms the side of the rim beam forming space together with the embedded plate 8 at the end of each support girder 7.

In addition, the square space of the cross-section formed by the molding space in which the frame for the concrete is poured, that is, the retaining wall (1) including the H- pile (2), the form lower plate (6), the embedded plate (8) and the formwork side plate (not shown) In the frame beam forming space, the reinforcement work for installing the reinforcing bars 11 and the stub reinforcing bars 12 in the longitudinal direction is carried out, and the side of the H-pile 2 embedded in the retaining wall 1 in the frame beam forming space. After removing a part of the wall, a stud bolt (eg, 3 × 2 rows = 6 pieces; 13), which is a shear connection member, is welded.

In addition, the stud bolt 14, which is a shear connection member, is welded to the embedded plate 8 in the edge beam forming space, and the stud bolts 13 and 14 installed as described above are embedded in the edge beam concrete. These are the ones which are constructed to increase the mutual binding force between the H-pile 1 and the rim beam 1a and between the rim beam 1a and the embedded plate (support girder) 8.

In this way, after all the structures such as formwork for the construction of the rim beams are installed, when the slab and beam concrete is poured, the concrete beams are poured together to form the rim beams.

And, after the concrete is cured, the copper bar (4) and the lumber (5), plywood formwork (form lower plate and side plate; 6), etc. are dismantled, the steel girders support girder (7) and embedded plate (8) is a permanent structure It will be used as

However, the conventional edge beam formwork system configured as described above has the following problems.

As described above, by using the general plywood formwork (6) and copper bar (4), due to the delay in the earthwork work due to the installation of the copper bar and the occasional concrete destruction when placing concrete, and the work of the formwork is complicated, the installation work is complicated, the workability is reduced And cost increase.

In particular, when the copper barrier 4 is used, the support on the soft ground is unstable, and disassembly is impossible unless the concrete strength is maintained above a certain level. Is bound to be delayed.

In addition, temporary materials such as dongbari should be moved to the lower floor after the excavation after installation to the outside of the gulto workshop during the construction of reverse casting, and this should be repeated for the construction of each floor. This will be.

In addition, due to the excessive cost and time required for transportation and reassembly of the group, it is not only economical, but also the labor-intensive labor-intensive all work depends on manpower. Makes it difficult.

In addition, there is a problem that the woodworking work for the formwork for the rim beam construction during the reverse construction using the steel structure has to be carried out in the middle.

In particular, the recent installation of the deck slab by installing the deck plate (15) during reverse casting construction, whereas, when using the plywood formwork (6) made of wood for the rim beam construction as it is for Woodworking personnel should be intermittently introduced.

As such, in the related art, as a result of inputting heterogeneous workers in woodworking workers in addition to ironworkers, construction cost increases and the efficiency of manpower input is greatly reduced.

In addition, since the steel beams (7) should be supported by the formwork or suspended on the steel cheolgolbo of the upper layer during the formwork of the joint portion of the rim beam (1a) and the cheolgolbo (supporting girder) 7, this also reduces the workability In addition, in order to join the cheolgolbo (7) and the rimbo (1a) of a large dance, the rimbo dance has to be larger than necessary, such as is designed economically.

In addition, rebar processing and assembly for the rim beam reinforcement is complicated, and the assembly time required for the installation of the reinforcement has become a factor of delaying the air and increase the construction cost.

Therefore, the present invention is devised to solve the above problems, the need for plywood formwork and copper bar is eliminated and the problems caused by its use are solved, and the end is supported and permanently embedded in the base retaining wall so that the support girder and intermediate beam reinforcement There is no need to support the beam with formwork or to hang it on the upper support girders. In addition, the use of reinforcing bars and stud bolts in the rim beams is greatly reduced, as well as simple reinforcing and assembly of the reinforcing bars, which improves workability and economical efficiency. It is possible to improve the workability and shorten the air, and to provide the formwork structure for the construction of the rim wall of the retaining wall, which has the advantage of economically designing the rim beam height regardless of the height of the support girder or the intermediate beam reinforcement beam. There is a purpose.

Figure 1a is a longitudinal sectional view showing the installation state of the conventional formwork for the construction of reinforced concrete rim beam,

Figure 1b is a longitudinal sectional view showing a state in which the construction of the conventional reinforced concrete rim beam is completed,

Figure 2 is a cross-sectional view showing an embodiment of the formwork structure according to the present invention,

3A is a cross-sectional view taken along the line 'A-A' of FIG. 2,

3b is a cross-sectional view taken along the line 'B-B' of FIG.

3C is a cross-sectional view taken along the line 'C-C' of FIG. 2,

Figure 4a and Figure 4b is a longitudinal cross-sectional view showing a rim beam completed by the present invention,

5A and 5B are cross-sectional views taken along the line 'E-E' and the line 'F-F' of FIGS. 3B and 3C, respectively, showing a state of installing a joist support intermediate bracket at each position.

<Explanation of symbols for the main parts of the drawings>

100: retaining wall 100a: border beam

101: H-pile 103: support girder

104: intermediate beam reinforcement beam 105: deck plate

111: angle bracket 112: support beam

113: joist support means 114: vertical support member

115: horizontal support member 116: joist

117 metal rib lath 118 stud bolt

120a, 120b: Joist support intermediate bracket 124a: Bolt

124b: Nut 126: Anchor

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Formwork structure for the construction of the rim beam according to the present invention,

An angle bracket fixed to sides of two H-piles adjacent to each other in the retaining wall at each position where the support girder and the intermediate beam reinforcement beam, which are H-beam steel frame structures, are installed;

A support beam disposed transversely to the support girder or the intermediate beam reinforcement beam while being supported on the adjacent two angle brackets, and supporting the end of the support girder or the intermediate beam reinforcement beam upward;

Joist support means installed on the beam lower plate in both side inner spaces of the support girder and the intermediate beam reinforcement beam end;

Square cross-sectional structure in which both ends are installed in multiple rows along the rim beam forming space while being supported by the joist support means, and two positioned at the lower edges of the rim beam forming space are connected to each other to the upper side and the lower side, respectively. With the joists of;

It is installed along the rim beam forming space above the joists and is formed by two joists above and below the corner part. 'Border beam formwork forming a cross beam forming space;

It is made, including.

In addition, the present invention is characterized in that it further comprises a joist support intermediate bracket is installed on the earth wall to support the joists at a predetermined position on the length.

In particular, the joist support intermediate bracket is characterized in that is fastened on the side of the retaining wall H-pile by a bolt that is welded to the side of the H-pile in the retaining wall and the nut fastened to the bolt.

Alternatively, the joist support intermediate bracket may be fastened to the inner wall of the retaining wall by an anchor inserted into the hole of the inner wall of the retaining wall.

In addition, the present invention is characterized in that the H-beam is used as the support beam.

In addition, the joist support means,

Two vertical support members which are disposed in front and rear directions in both side inner spaces of the support girder and the intermediate beam end and are installed up and down on the beam lower plate;

It is supported by the two vertical support members arranged before and after and is disposed in the transverse direction with the upper joists on the upper side, and fixes two box-shaped steel pipes arranged in the same length direction in the upper and lower two layers, and the upper box-shaped steel pipe is partially divided with respect to the lower box-shaped steel pipe. It is installed only in the structure, characterized in that the joists are respectively supported on the upper surface of the upper and lower box-shaped steel pipe.

In addition, the present invention is characterized in that the wire mesh formwork is used as the frame beam formwork.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The present invention relates to a formwork structure for constructing the rim beam of the retaining wall, and after installing the brackets at each position of the retaining wall, the end of the support girder and the intermediate beam reinforcement beam, which is H-beam steel beam, through the supporting beam on the bracket. After supporting the joists of the multi-column joists with the support means on the support girders and the intermediate beam reinforcement beams and the separate brackets of the retaining walls, and placing them along the rim beam forming space, the wire mesh is formed as a formwork structure for forming each side of the rim beams. It relates to a form structure formed by installing the formwork on the joist.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail as follows.

First, Figure 2 is a cross-sectional view showing an embodiment of the formwork according to the present invention, which is a cross-sectional view taken in the transverse direction with respect to the retaining wall 100 and the H-pile 101 installed vertically therein.

3A is a cross-sectional view taken along the line 'A-A' of FIG. 2, FIG. 3B is a cross-sectional view taken along the line 'B-B' of FIG. 2, and FIG. 3C is a line 'C- of FIG. 2. Sectional view taken along C '.

Here, Figure 3a is a longitudinal sectional view in the position where the support girder 103 is installed, Figure 3b is the installation of the joist support intermediate bracket 120a coupled to the H-pile 101 in the position where the H-pile 101 is installed Figure 3b is a longitudinal cross-sectional view showing the state, Figure 3b is a longitudinal cross-sectional view showing the installation state of the joist support intermediate bracket 120b coupled to the retaining wall 100 at the position where the H-pile 101 is not constructed.

3A, 3B, and 3C are diagrams illustrating when concrete is being cured after the rim beam concrete is poured, and FIGS. 4A and 3B are attached to a state in which the edge beam construction is completed as a corresponding view of FIGS. 3A and 3B. 4b respectively.

First, referring to Figure 2, the reference numeral 100 denotes a wall, the wall wall 100 in the present invention may be a cement wall (SCW) or a cement wall (CIP) including a reinforcement frame 102, Hereinafter, all will be referred to as 'soil walls'.

However, since the joist support intermediate bracket (bracket fixed to the earth wall as an anchor, 120b), which is optionally additionally installed in the present invention, cannot be coupled and fixed to the SCW, FIG. 2 shows the joist support intermediate bracket 120b. In order to show an example of the installation of the retaining wall 100, including the reinforcement frame 102 is shown an example of the CIP that can be combined with the joist support intermediate bracket (120b).

Usually, in the case of SCW and CIP, the H-file 101 is provided inside as a steel file at regular intervals.

Referring to FIG. 2, it is shown that an additional reinforcing beam 104 serving as an intermediate beam is installed between two left and right support girders 103 on the drawing, and a form structure for deck slab construction although not shown in the drawing. The in-deck plate (denoted by 105 in FIGS. 3A-4B) is between the left support girder 103 and the intermediate beam reinforcement beam 104 in the drawing, and the intermediate beam reinforcement beam 104 and the right support girder 103 in the drawing. In the slab space between the support girder 103 and the intermediate beam reinforcement beam 104 is installed across the upper side, the deck plate is installed in the direction of the longitudinal direction of the two support girder 103 and the intermediate beam reinforcement beam 104 Becomes transverse to.

The support girders 103 and the intermediate beam reinforcement beams 104, which are steel beams, are typically implemented as H-beams.

Next, the formwork structure installed in the support girder 103 position will be described in detail with reference to FIGS. 2 and 3A, and the formwork structure installed in the intermediate beam reinforcement beam 104 position is each support girder 103 position. Since the formwork structure is the same as, the description of the formwork at the position of the intermediate beam reinforcement beam 104 can be sufficiently understood by the following description of the formwork at the position of the support girder 107 (the support girder is the intermediate beam reinforcement beam). Replaced by

First, as shown in Figure 3a, after removing a portion of the retaining wall 100 at the position where the support girder 103 is installed through the surface grinding, it is produced in an inverted triangle structure on the side of the exposed H-pile 101 The angle brackets 111 are welded and installed.

Here, as shown in FIG. 2, the angle brackets 111 are fixedly installed on side surfaces of two neighboring H-piles 101, and the support girder 103 is disposed above the two angle brackets 111. Laterally arranged support beams 112 are supported.

The support beam 112 can be implemented with an H-beam similarly to the support girder 103 and the intermediate beam reinforcement beam 104, and the end of the support girder 103 upwards in the middle of the support beam 112. It is preferably supported by welding the junction portion of the support beam 112 and the support girder 103 with each other and completely fixed.

And, the support means for supporting the joist 116 in both side inner space of the end of the support girders 103 and the intermediate beam reinforcement beam 104 supported by the angle bracket 111 and the support beam 112 as described above. The 113 is supported by being installed on the lower plates 103a and 104a of the beam.

The joist support means 113 is a box-shaped steel pipe that is installed in multiple rows along the longitudinal direction of the rim beam forming space, that is, both ends of the joist 116 support girder 103 and the intermediate beam reinforcement beam 104 end It is provided to support in the inner space of the support girders 103 and the vertical support member 114 which is installed in both side inner space of the end of the intermediate beam reinforcement beam 104 up and down longer than the lower plate (103a, 104a) of the beam And a horizontal support member 115 which is disposed in the transverse direction with respect to the longitudinal direction of the rim beam forming space (or joist) above the vertical support member 114.

That is, as shown in Figure 3a, after supporting the horizontal support member 115 over the two vertical support member 114 is arranged in each inner space on both sides of the H-beam, the horizontal support member 115 It is to support the joists 116 above.

The vertical support member 114 is for supporting the horizontal support member 115 disposed in the transverse direction with respect to the longitudinal direction of the rim beam forming space from the lower side, and is manufactured so that the height can be adjusted and the direction of the cup can be adjusted. It can be implemented with cup bolts that are already widely used in construction sites.

The horizontal support member 115 is supported by the vertical support member 114 to support the metal rib lath (117) used as the joist 116 and the frame beam form of the present invention, the same length The two box-shaped steel pipes 115a and 115b arranged in the direction are welded and fixed in two upper and lower layers, and the upper box-shaped steel pipe 115a is provided in only a portion of the lower box-shaped steel pipe 115b.

On the other hand, the present invention is supported by the vertical support member 114 and the horizontal support member 115 fabricated and installed as described above to form a joist 116 and a frame beam formwork to form the outline of the rim beam forming space Rib lath 117.

Here, the joist 116 may be implemented as a box-shaped steel pipe (eg, 50 × 50 × 3 or 60 × 60 × 2.4) having a rectangular cross-sectional structure.

The joists 116 are installed in multiple rows along the longitudinal direction of the edge beam forming space in which the deck plate 105 is not installed, and end portions of one side and the other side of the support girder 103 and the intermediate beam reinforcement beam 104 are respectively. It is supported and installed by the joist support means 113 installed in the).

In particular, the joists 116 are intended to support the metal rib lath 117 used as a rim beam formwork, in the exemplary embodiment of the bar joules 116 of the four-row arrangement structure is a joist support means 113 It is installed and employed in a state supported by the two, the two joists located in the lower corner of the rim beam forming space to be constructed is the upper box-shaped steel pipe (115a) and the lower box-shaped steel pipe (115b) of the horizontal support member 115 ) Are installed side by side in contact with each other to the upper and lower sides in a state supported by each.

The two joists 116 are supported upward and downward by stepped structures of the two box-shaped steel pipes 115a and 115b constituting the horizontal support member 115, respectively, so that the upper side and the upper side of the lower joist are formed by edge beams. The edge of the space has a cross-sectional shape, that is, a '┛'-shaped cross-sectional structure, in particular, the upper joist supported by the upper box-shaped steel pipe (115a), along with the metal rib lath (117) inside the side to form the side of the rim beam It becomes part for.

As a result, in the formwork of the present invention, among the joists 116 of the four-row arrangement structure, the upper joists are installed between the support girders 103 and the intermediate beam reinforcement beams 104 along the side of the edge beam forming space as described above. It is to serve as a formwork for forming the rim beam side bar, the wooden formwork side plate for forming the rim beam side, which is conventionally installed is replaced by the upper joists and deleted.

Meanwhile, the joists 116 are connected between the support girders 103 and the intermediate beam reinforcement beams 104 along the longitudinal direction of the rim beam forming space so as to form a stepped multi-row arrangement structure as described above. The metal rib lath 117 is provided on the 116 as a formwork structure for forming each side of the rim beam including the lower surface and the side surface.

The metal rib lath 117 is installed so that the deck plate 105 is supported by the joist 116 along the rim beam forming space on the side of the retaining wall 100 where the deck plate 105 is not installed. Supported by ' It is installed in the cross-sectional structure of the bar, and forms a rim beam forming space of the cross-sectional structure protruding downward from the slab, including the bottom and side of the rim beam (100a) attached to the concrete after the casting and curing Each side of the rim beam 100a is formed.

The metal rib lath 117 is a wire mesh formwork made by placing a rib on a wire mesh lath, which is a formwork used in a net formwork method.

The net formwork method is a method of placing concrete using a special steel net instead of plywood as a form plate, and it is lighter, easier to process and assemble than plywood formwork by using a forced net, and requires no disassembly. It is good and has the advantage of significantly shortening the air.

In the form structure of the present invention, the metal rib lath 117 is used as a permanent structure forming each side of the rim beam 100a without a separate disassembly process.

On the other hand, the side of the H-pile 101 embedded in the retaining wall 100 in the rim beam forming space, after removing a part of the wall stud bolt 118, which is a shear connection member is welded, the support girder 103 And the deck plate 105 is installed in the slab space to be supported by the intermediate beam reinforcement beam 104, the upper reinforcement 119a and the lower reinforcement 119b is placed throughout the slab space and the rim beam space.

As such, in the present invention, the stud bolts installed in the conventional embedded plate may be deleted, and the number of stud bolts installed on the H-pile 101 side of the retaining wall 100 may be greatly reduced (2 × 1 = 2). To reduce the amount of steel used in the rim beam forming space.

In this way, when the concrete is poured and cured in the slab space and the rim beam space, and the concrete is cured and the strength as a structure is expressed to some extent, as shown in FIG. 4A, the horizontal support member 114 and the vertical support member 115 are shown. The joists supporting means 113 and joists 116 installed over the joists supporting means 113 are dismantled for later reuse.

The end portions of the support girders 113 and the intermediate beam reinforcement beams 104, which are permanent structures, and the angle brackets 111 and the support beams 112, which support the ends thereof, are embedded in the basement retaining wall.

As a result, the formwork of the present invention as described above has the following advantages.

Compared with FIG. 1A, which is a drawing of the prior art, and FIG. 4A, which is a drawing of the present invention, the rim beam according to the prior art is structurally very disadvantageous to bear both the vertical load transmitted from the slab and the earth pressure load transmitted from the retaining wall. According to the present invention, the vertical load is the angle bracket 111 and the support beam 112 is permanently embedded in the base retaining wall, the earth pressure load is supported by the slab respectively, there is an advantage in terms of construction as well as structurally very advantageous.

In addition, it is unnecessary to install the plywood formwork and copper bar, thereby eliminating the problem, the end of the steel girders support girder 103 and the intermediate beam reinforcement beam 104 is the angle bracket 111 and the support beam 112 of the present invention Since it is permanently embedded in the base retaining wall in a supported state, it is not necessary to support the support girders 103 and the intermediate beam reinforcement beams 104 by formwork or suspending them in the upper support girders which are pre-installed. Is improved.

In addition, the rim beam reinforcement is significantly reduced and no stirrup reinforcement is required, and rebar processing and assembly are simple, improving workability and economic efficiency.

In addition, the use of the stud bolt 118 is greatly reduced, the workability and economical efficiency is improved, and since the side wall of the formwork is not replaced by the joist 116, it is possible to simplify the work and shorten the air.

In addition, since the mold dismantling work is unnecessary by using the metal rib lath 117 as the frame beam formwork, the workability is improved and the air shortening is possible, and regardless of the height of the steel girders supporting girders 103, Height can be designed economically.

In addition, when the rim beam in the base retaining wall has a stepped structure, the joining is structurally advantageous when connecting the base retaining wall.

In particular, when preliminary construction of the edge retaining wall after preliminary construction of the rim beam, a closed room is constructed between the upper surface of the rim beam and the basement retaining wall on the upper side, but gaps and cracks are inevitable due to the drying and shrinkage of concrete between the bottom of the rim beam and the basement retaining wall on the lower side. Bar, in the prior art, since the bottom of the rim beam in the base retaining wall is a flat structure, there is a problem in that external groundwater easily penetrates through the gap with respect to the entire width direction of the rim beam, but leakage occurs in the present invention. Since the stepped structure is constructed, the stepped structure has an advantage of effectively blocking the penetration of external groundwater along the width direction of the lower edge of the rim beam.

That is, the stepped structure of the lower surface of the rim beam blocks the external groundwater entering through the gap, and even if the external groundwater flows into the primary through the lower side gap between the lower surface of the rim beam and the base retaining wall, Blocked by, the outer groundwater is no longer introduced through the inner upper gap.

On the other hand, it is necessary to disperse the concrete load applied to the joist 116 which is installed between the support girders 103 and the intermediate beam reinforcement beams 104 at the time of concrete pouring and curing to the retaining wall 100, this In order to support the joist 116 in a predetermined position on the length of the earth wall 100, joist support intermediate brackets (120a, 120b) may be installed.

In the embodiment shown in FIG. 2, the joist support intermediate brackets 120a and 120b are installed at the H-pile 101 at the center between the support girders 103 and the intermediate beam reinforcement beams 104, but the support girders ( 103 may be provided with a plurality of joist support intermediate brackets (120a, 120b) at an appropriate interval between the beam reinforcement beam 104 or between two adjacent support girders (103), where the joist support intermediate brackets (120a, 120b) may be directly fixed to the retaining wall 100 or fixed to the side of the H-pile 101 at a location where the H-pile 101 is installed in the retaining wall 100.

The joist support intermediate brackets 120a and 120b are brackets which are dismantled together with the joist 116 so that they can be reused later when concrete is cured and sufficient strength is expressed in the underground retaining wall, and is easily detachable for dismantling. Using this possible fastening member is fixed to the retaining wall 100 or H-pile 101.

Figure 3b is a longitudinal cross-sectional view showing a state in which the joist support intermediate bracket 120a is installed at the position where the H- pile 101 in the retaining wall, Figure 5a is a cross-sectional view taken along the line 'E-E' of Figure 3b. This is explained as follows.

As shown, after removing a portion of the inner surface of the earthen wall 100 through the surface shredding fastening and fixing the joist support intermediate bracket (120a) to the side of the exposed H-pile 101 by using a fastening member, above The joist 116 for supporting the formwork and the metal rib lath 117 used as the formwork are sequentially supported in the same manner as described above.

The joist support intermediate bracket 120a is manufactured by combining the horizontal member 121, the vertical member 122, and the inclined member 123 made of L-shaped steel in an inverted triangle structure, and the upper surface of the horizontal member 121. An additional member 121a for supporting the upper joists 116 is welded and installed as a fastening member for fixing the joist support intermediate bracket 120a to the H-pile 101 in the retaining wall 100. Bolts 124a and nuts 124b are used.

More specifically, the bolts 124a are welded and fixed to upper and lower positions of the side of the H-pile 101, and each bolt 124a is formed on the vertical member 122 of the joist support intermediate bracket 120a. After inserting the fastening hole 122a, the vertical member 122 is fastened to the end of the bolt 124a from the opposite side while the vertical member 122 is in close contact with the side of the H-pile 101, thereby allowing the vertical member 122 to be inserted into the fastening hole 122a. To the H-pile 101.

Thus, after completing the concrete construction of the rim beam by fixing the joist support intermediate bracket (120a) to the H-pile 101, the nut (124b) to be released for disassembly.

On the other hand, Figure 3c is a longitudinal cross-sectional view showing a state in which the joist support intermediate bracket 120b is installed on the retaining wall 100 at the position where the H-pile 101 is not constructed, Figure 5b is a line 'F-F of Figure 3c A cross-sectional view taken along ', which is described as follows.

As shown, after removing a portion of the inner surface of the earthen wall 100 through the surface shredding fastening and fixing the joist support intermediate bracket (120b) using the fastening member on the inner surface of the surface shredded, joist for supporting the formwork thereon 116 and the metal rib lath 117 used as formwork are sequentially supported in the same manner as described above.

The joist support intermediate bracket 120b is the same as that fixed to the H-pile 101 of the retaining wall 100, and a fastening member for fixing the joist support intermediate bracket 120b to the retaining wall 100. As an anchor 126 that is inserted into and fixed to the hole 106 of the inner wall 100 is used.

More specifically, each of the upper and lower fastening holes 122a previously formed in the vertical member 122 of the joist support intermediate bracket 120b at an up and down position of the inner wall of the soil wall 100 to which the joist support intermediate bracket 120b is to be fastened. Drill the hole 106 into which the anchor 126 is to be inserted according to the position, and the anchor 126 is fastened to the vertical member 122 in a state in which the vertical member 122 is in close contact with the inner surface of the retaining wall 100. After penetrating through 122a), it is fastened to the hole 106 of the retaining wall 100 to fix the joist support intermediate bracket 120b to the retaining wall 100.

In this case, a commercial injection chemical anchor may be used as the anchor, which drills the hole 106 with a drill on the earth wall 100, and chemically drills into the hole 106 of the earth wall 100. After the anchor 125 is injected, the construction is performed by inserting the metal anchor 126 into the hole 106 of the retaining wall 100 and then hardening it.

In this way, after the joist support intermediate bracket (120b) is fixed to the retaining wall 100 to complete the concrete construction of the rim beam, the anchor 126 is removed for reuse and then dismantled.

The joist support intermediate bracket 120b of the retaining wall fixing method as described above is required to support the joist 116 at a position where the H-pile 101 in the retaining wall 100 is not installed. 102 is a structure that can be applied only to the CIP which is the wall containing the wall (100).

As described above, the formwork structure for the construction of the rim beam of the retaining wall according to the present invention, after installing the bracket at each position of the retaining wall, the support beam and the intermediate beam of the H-beam steel frame beam through the support beam on the bracket After supporting the ends of the reinforcing beam, and supporting the joules of the multi-row with the support means on the support girders and the intermediate beams reinforcement beams and separate brackets of the retaining wall and arranged along the edge beam forming space, for forming each side of the edge beams The formwork structure is constructed by installing a wire mesh formwork on the joist, providing the following advantages.

1) The frame beam according to the prior art bears both the vertical load transmitted from the slab and the earth pressure load transmitted from the retaining wall together, which is very disadvantageously structurally. The earth pressure load is supported by the slabs respectively, which has the advantage of being very structurally advantageous as well as constructability.

2) Plywood formwork and clubs are unnecessary, eliminating the problems caused by its use, and the end of H-beam steel beam support girders and intermediate beam reinforcement beams are supported by the angle brackets and support beams of the present invention to be permanently embedded in underground retaining walls. Therefore, it is not necessary to support the supporting girders and the intermediate beam reinforcement beams by formwork or to hang them on the supporting girders on the upper side, and thus the workability is remarkably improved.

3) Significantly reduced the amount of reinforcing bar reinforcement and no need for stirrup reinforcing bars, and simple construction and assembly of reinforcing bars improves workability and economic efficiency.

4) Since the number of stud bolts installed in the rim beam can be greatly reduced, workability and economical efficiency are improved, and formwork side plates requiring woodworking work are replaced by joists, thus simplifying installation and shortening the air.

5) It is not necessary to dismantle the formwork by using metal rib lath as the frame beam formwork, so it is possible to improve the workability and shorten the air, and to design the height of the frame beam economically regardless of the height of the steel girders.

6) Since the structure of the bottom retaining wall is a stepped structure, the joint is structurally advantageous when connecting the underground retaining wall, and the stepped structure effectively prevents the penetration of external groundwater along the width direction of the bottom of the retaining wall. There is an advantage that can be blocked.

Claims (7)

An angle bracket fixed to sides of two H-piles adjacent to each other in the retaining wall at each position where the support girder and the intermediate beam reinforcement beam, which are H-beam steel frame structures, are installed; A support beam disposed transversely to the support girder or the intermediate beam reinforcement beam while being supported on the adjacent two angle brackets, and supporting the end of the support girder or the intermediate beam reinforcement beam upward; Joist support means installed on the beam lower plate in both side inner spaces of the support girder and the intermediate beam reinforcement beam end; Square cross-sectional structure in which both ends are installed in multiple rows along the rim beam forming space while being supported by the joist support means, and two positioned at the lower edges of the rim beam forming space are connected to each other to the upper side and the lower side, respectively. With the joists of; It is installed along the rim beam forming space above the joists and is formed by two joists above and below the corner part. 'Border beam formwork forming a cross beam forming space; Formwork structure for the construction of the rim beam construction including a wall. The method according to claim 1, Formwork structure for the rim beam construction of the retaining wall further comprises a joist support intermediate bracket is installed on the retaining wall to further support the joists at a predetermined position on the length. The method according to claim 2, The joist support intermediate bracket is fixed to the side wall of the retaining wall H-pile by a bolt installed on the side of the H-pile in the retaining wall and a nut fastened to the bolt. Formwork for construction. The method according to claim 2, The joist support intermediate bracket is a formwork structure for the construction of the rim wall construction, characterized in that the anchor wall is fastened and fixed by the anchor is inserted into the hole of the inner wall of the retaining wall. The method according to claim 1, Formwork for rim beam construction of the retaining wall, characterized in that the H-beam is used as the support beam. The method according to claim 1, The joist support means, Two vertical support members which are disposed in front and rear directions in both side inner spaces of the support girder and the intermediate beam end and are installed up and down on the beam lower plate; It is supported by the two vertical support members arranged before and after and is disposed in the transverse direction with the upper joists on the upper side, and fixes two box-shaped steel pipes arranged in the same length direction in the upper and lower two layers, while the upper box-shaped steel pipe is partially divided with respect to the lower box-shaped steel pipe Formed only in the structure, the formwork structure for the construction of the rim wall of the retaining wall, characterized in that the joists are supported on the upper surface of the upper and lower box-shaped steel pipe, respectively. The method according to claim 1, Formwork structure for the construction of the rim beam wall, characterized in that the wire mesh formwork is used as the frame beam formwork frame.