KR101542602B1 - Equipment of temporary earth protection for building works - Google Patents

Abstract

The present invention relates to temporary earth retaining equipment for a building to ensure safety of earth retaining equipment, shorten a construction period, and reduce costs. According to the present invention, temporary earth retaining equipment for a building comprises: an internal earth retaining wall (100) installed along a circumferential portion of a building; an external earth retaining wall (200) installed at a predetermined distance along a circumference of the internal earth retaining wall in the outside of the internal earth retaining wall; internal and external reinforcing rod connectors (300, 400); and a truss reinforcing rod (500) reinforcing the internal earth retaining wall and the external earth retaining wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

More particularly, the present invention relates to a construction apparatus for a building, and more particularly, to a construction apparatus for a building, which is capable of easily mounting the support to the ground by using a fixture easily inserted into the ground and increasing the supporting force against various earth pressures, And to reduce the air and reduce the cost of the building.

Generally, in order to build the foundation of the building in the basement, the outer wall of the foundation excavation works before the earthworks work.

Particularly, due to factors such as securing the floor area ratio and rising land prices, the limited terrestrial terraces of the city are being constructed from the point adjacent to the site boundary, and in order to utilize the narrow land effectively, .

Conventional permanent earth retaining facilities are composed of a plurality of struts (H beams) which are erected at a certain distance from each other, and a earth plate laminated between a plurality of struts, for example, in the form of a quadrangular frame according to the shape of a building .

The plurality of struts may be installed in the ground at the bottom, and an inclined bracing may be applied for reinforcement.

Such an earth retaining facility is a one-column structure and because of the lack of supporting force against a earth pressure equal to or greater than a certain size, a variety of reinforcing facilities (anchors, braces, etc.) are applied so that the construction site is very complicated, and even if it is collapsed or deformed by earth pressure An accident is occurring.

In addition, since the land itself is used in the installation process of the landlord, the landing power between the landlords must be different, and consequently there is a problem in that it is not possible to construct a solid landfill.

Conventionally, as a soil retaining facility, Patent Document 1 (Laid-Open Patent Publication No. 10-2005-0010616) is known.

The above-mentioned patent document 1 discloses a structure in which a plurality of side files / temporary standing walls fixed to the ground vertically along the outline of the ground are formed, the center file is vertically fixed so as to be spaced apart from the ground at the inner side of the side file / A horizontal support beam is formed so as to be horizontally connected along the inner edge of the side file / temporary standing wall and fixed to push the wale, and horizontally supported to be horizontally connected to a plurality of vertically stacked center files, And the X-shaped angle brace portions are sandwiched and fixed between the horizontal support beams in the form of a plurality of lattices stacked on the center pile on the center pile, and the center pile and the horizontal support beams And they are stuck to each other so as to form a work space portion of a hollow space in the center of the ground to be ground Intended to combine, this Patent Document 1 is configured the same as it can hold the above-mentioned problem (use of a reduced fixing force of the holding, a number of reinforcement).

As another prior art, Patent Document 2 (Japanese Patent Registration No. 10-0724525) discloses a flat plate having a rectangular shape elongated to the left and right sides, in which fastening holes are formed inwardly at the left and right ends, respectively, And a plurality of square protrusions are protruded from the front and rear sides at predetermined intervals on the front and rear sides. A locking concave / convex block through which the insertion hole extends from the upper surface to the lower side of the rectangular protrusion; Wherein a fastening hole is formed on the upper and lower sides of the fastening concave-convex block and has the same length of left and right sides as the fastening concave-convex block, and fastening holes are formed on left and right ends of the fastening hole and the fastening hole, respectively, A corrugated concavo-convex block in which a plurality of corrugated corrugations are formed so as to be recessed so as to penetrate the insertion hole of the rectangular projecting portion, and a corrugated protruding portion protruding outward is formed between the corrugated concave portion and another adjacent corrugated concave portion; The left and right end concave holes of the concave concave and convex block located on the same vertical line on the same vertical line as the H shape and the right and left concave holes of the corrugated concave and convex block are hooked and fixed to the respective locking projections, A H-shaped body coupling formed with a chain base portion; The flattened concave-convex block and the corrugated concave-convex block are placed at a square corner portion where the concave concave-convex block and the corrugated concave-convex block are stacked. The two ends of the concave-convex block are perpendicular to the fastening holes of the concave- And a locking protrusion formed on the lower end of the locking protrusion so as to be inserted into and fixed to the ground; The connecting concave-convex block and the corrugated concave-convex block are vertically inserted into the insertion holes of the front and rear square-shaped protrusions of the concave-convex block in a state of sequentially stacking the concave-convex block and the corrugated concave-convex block, , And it is composed of a plurality of fastening supporting rods which tightly fasten the fastening uneven block and the corrugated uneven block on the front and rear sides while being fixed to the ground through the wedge. However, since the fixing force due to the wedge and the earth pressure There is a difficulty in securing rigidity.

In addition, although the two-row (two-stage) type earth retaining structure is proposed, there is a problem that the holding force of the column is weak because the column is a general construction method, and there is a problem that the support force between the two column retaining structures is weak and the workability is poor.

Published Patent Application No. 10-2005-0010616 Patent Registration No. 10-0724525

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a method of constructing an earthquake- The purpose of this study is to provide a building permanent earth retaining facility that secures safety, shortens air and reduces costs.

According to another aspect of the present invention, there is provided a temporary earth retaining structure for building comprising: an inner earth retaining wall; An outer earth retaining wall disposed outside the inner earth retaining wall at a predetermined interval and exerting a supporting force against external earth pressure; The inner and outer reinforcement joints are formed in a triangular cross section with first and second connecting surfaces inclined in opposite directions to each other and are arranged along the vertical direction on the opposite surfaces of the inner and outer struts constituting the inner and outer earth retaining walls. ; And a truss brace installed between the inner and outer sheath walls to support the inner sheath walls and the outer sheath walls, the inner sheath walls and the outer sheath walls being supported by the inner sheath walls and the outer sheath walls, An inner and outer fixing ports which are arranged in a zigzag form between the inside and the outside with a predetermined distance therebetween and which are fixed to the ground, a support which is fixed to the fixing port by inserting a bottom portion into the inside and outside fixing ports, Wherein the inner and outer fixing ports are formed so as to be open toward the upper and the inner and outer supporting posts are respectively fixed through insertion and filling of the mortar, To the longitudinal earth pressure, A transverse earth pressure plate formed longitudinally at the bottom of the longitudinal earth pressure plate to generate a compressive force with respect to the transverse earth pressure, and a sharp point formed at the bottom of the fixture body, Wherein the truss reinforcing bars are inclined between the inner and outer struts of the inner and outer earth retaining walls and both longitudinal sides of the truss reinforcing bars are inserted into the dovetail grooves of the inner and outer reinforcing bars.

In accordance with the present invention, the suspended cladding structure for construction is constructed by installing the inner and outer earth retaining walls in a double manner, and by using the fixing port, the supporting column is easily inserted into the ground and the earth pressure in various directions It has the effect of securing the safety of the earth retaining facility and preventing the collapse by increasing the force, and it is also possible to shorten the air and reduce the construction cost by making the construction through simple assembly of the materials.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view of a permanent cladding plant for construction according to the present invention; Fig.
Fig. 2 is a front view of a temporary earth retaining structure for construction according to the present invention; Fig.
FIG. 3 is a side view of a permanent earth retaining structure for construction according to the present invention. FIG.
Fig. 4 is a perspective view of an inner and outer fixture applied to a permanent earth retaining structure for construction according to the present invention; Fig.
FIG. 5 is a perspective view showing another example of an inner and outer fixture applied to a construction permanent clay installation according to the present invention; FIG.
FIG. 6 is a perspective view showing a truss brace applied to a temporary earth retaining structure for construction according to the present invention. FIG.

As shown in FIGS. 1 to 3, the building temporary cladding installation according to the present invention includes: an inner cladding wall 100 installed along a periphery of a building; An outer earth retaining wall 200 disposed outside the inner earth retaining wall 100 at predetermined intervals along the periphery of the inner earth retaining wall 100 and exerting a supporting force against an external earth pressure; Inner and outer reinforcement bar joints 300 and 400 respectively installed on the inner and outer struts of the inner and outer sheeting walls 100 and 200; And a truss brace 500 installed in the form of a truss between the inner and outer earth retaining walls 100 and 200 to support the inner and outer earth retaining walls 100 and 200.

The inner and outer earthen walls 100 and 200 include inner and outer fixtures 110 and 210 fixed to the ground, inner and outer struts 120 and 220 inserted and fixed to the inner and outer fixtures 110 and 210, inner and outer struts 120 and 220, And an inner and outer counter current plates 130 and 230 which are stacked between the inner and outer counter current plates 130 and 230.

As shown in FIGS. 2 to 4, the inner and outer fixing holes 110 and 210 are open toward the top, so that the inner and outer pillars 120 and 220 are respectively fixed through the insertion and filling of the mortar, the fixing hole main bodies 111 and 211, Longitudinally extending from both the front and rear sides of the upper end of the longitudinal earth pressure plates 112 and 212 and longitudinal pressure plates 112 and 212 and vertical pressure plates 112 and 212 extending longitudinally to generate a compressive force against the longitudinal earth pressure, Lateral land pressure plates 113 and 213 for generating a supporting force against the main body 111 and 211, and pointed portions 114 and 214 formed to be sharp at the bottom of the main body 111 and 211, respectively.

The longitudinal earth pressure plates 112 and 212 and the lateral earth pressure plates 113 and 213 are respectively provided with a plurality of embossed grooves in order to increase frictional force with the ground.

The longitudinal pressure plates 112 and 212 can be arranged on both front and rear sides of the inner and outer struts 120 and 222 while preventing the downward movement of the inner and outer struts 120 and 220 while reducing the settlement.

The transverse earth pressure plates (113, 213) exert a biasing force against the earth pressure applied in the left and right directions to prevent lateral lateral movement of the inner and outer pillars (120, 220).

As shown in FIG. 4, the inner and outer fixing holes 110 and 210 are formed by separating the fixing member main bodies 111 and 211 and the sharp point portions 114 and 214 from each other and between the fixing member main body 111 and 211 and the pointed portions 114 and 214, 115, and 215 may be interposed.

The fixing member main bodies 111 and 211 and the sharp points 114 and 214 and the height adjusting members 115 and 215 between them can be fixed by various methods such as flange jointing and welding.

When the height adjusting members 115 and 215 are used as described above, the depth of the near side of the inner and outer struts 110 and 210 is optimized to the optimum according to the size of the ground and the earth retaining wall.

As shown in FIG. 5, the inner and outer fixation holes 110 and 210 may include counter-current plate seating portions 116 and 216, which are horizontally extended on both left and right sides of the fixation port bodies 111 and 211, respectively, have. The soil plate seating parts (116, 216) set the installation positions of the inner and outer soil plates (130, 230) in the lowermost stage and prevent settlement due to underground settlement.

The earth plate seating portions 116 and 216 may exert a pressing force against the earth pressure in the longitudinal direction due to the characteristics of the direction and may be applied to the bottom portions of the earth plate seating portions 116 and 216 in a direction orthogonal to the earth plate seating portions 116 and 216 .

The inner and outer struts 120 and 220 are preferably H beams and are inserted into the inner and outer fixing holes 110 and 210 and then fixed through the filling of the mortar.

The inner and outer pillars 120 and 220 are installed in a staggered configuration by the inner and outer fixtures 110 and 210 so as to install the truss reinforcement 500 in a truss shape.

A known product used in the earth retaining wall is used as the inner and outer soil plates 130 and 230.

The inner and outer reinforcement bar joints 300 and 400 are for providing the truss reinforcement bar 500 in a truss shape and are formed in a triangular cross section with first and second connecting surfaces inclined in opposite directions to each other, And is fixed by welding or the like while being arranged along the vertical direction.

The inner and outer reinforcement bar joints 300 and 400 are fabricated through assembly of steel plates.

The truss reinforcing bars 500 are arranged in a truss-like form between the inner earth retaining wall 100 and the outer earth retaining wall 200 and both longitudinal ends thereof are inserted into the dovetail grooves of the inner and outer reinforcing bar joints 300 and 400, respectively.

The truss reinforcing bar 500 can be manufactured by using H beams and assembling the coupling protrusions of the dovetails on both sides in the longitudinal direction of the H beam.

The truss reinforcing bars 500 form an earth retaining structure by connecting the inner and outer struts 120 and 220.

The truss reinforcing bars 500 are installed at two or more stages with a predetermined height. The truss reinforcing bars 500 are supported by the upper and lower truss reinforcing bars 500 so that the truss reinforcing bars 500 are not separated. A spacer (510) is inserted into the groove.

Between the inner and outer earth retaining walls 100 and 200, a filler such as earth and silt can be filled.

Although not shown in the drawing, an inclined bracing is additionally applicable to the inside of the inner earth retaining wall 100. The upper end of the bracing is fixed to the inner strut 120 and the lower end of the bracing is anchored to the ground to support the inner earth retaining wall 100 through the inner strut 120. The bracing may be applied to one inner strut 120 at two or more different slopes (lengths).

The inner and outer pillars 100 and 200 are installed in the inner and outer pillars 120 and 220 through the inner and outer fixtures 110 and 210 inserted and fixed at a predetermined depth in the ground, (Insertion, puncture insertion, and mortar filling) of the inner and outer fixing holes 110 and 210 are made easier and shorter than the installation of the relatively long inner and outer pillars 120 and 220, Shorten.

In addition, the inner and outer struts 120 and 220 installed through the inner and outer fixing holes 110 and 210 secure a solid support base through the inner and outer fixing holes 110 and 210 to maintain the construction without causing the earth pressure.

Since the external earth pressure is applied to the outer earth retaining wall 200 and the earth pressure is dispersed in the outer earth retaining wall 200, the truss reinforcing base 500 and the inner earth retaining wall 100, The outer earth retaining wall member 200 and the inner earth retaining wall member 100 are constructed of a single structure through the truss reinforcing base 500 and exhibit a large supporting force against external earth pressure, Prevent deformation and collapse of the facility.

100,200: Inside and outside walls,
110, 210: inner and outer fixtures,
111,211: Fixing unit main body, 112,212: Longitudinal earth pressure plate
113, 213: transverse direction earth pressure plate, 114, 214:
115, 215: height adjusting member, 116, 216:
120,220: Inner lateral strut, 130,230: Inner and outer lateral strut
300,400: Inner and outer side brace connection, 500: Truss brace

Claims (3)

An inner earth retaining wall body 100 installed along the periphery of the building;
An outer earth retaining wall 200 disposed outside the inner earth retaining wall at regular intervals along the periphery of the inner earth retaining wall and exerting a supporting force against external earth pressure;
The inner and outer reinforcing bars are connected to the inner and outer strands of the inner and outer strands by means of the inner and outer reinforcements connected to each other. 300,400);
And a truss brace (500) installed between the inner earth retaining wall and the outer earth retaining wall to support the inner earth retaining wall and the outer earth retaining wall by supporting the inner earth retaining wall and the outer earth retaining wall,
The inner and outer earthen walls are arranged in a zigzag shape between the inner and outer sides with a predetermined distance therebetween. The inner and outer earthed walls are fixed to the ground. The inner and outer earthed walls are filled with mortar An inner and outer struts (120, 220) fixed to the fixing hole through the inner and outer struts, and inner and outer stratums (130, 230) stacked between the inner and outer struts,
The inner and outer fixation holes include a fixation hole main body 111 and 211 formed to be open toward the upper side and fixed to the inner and outer support through filling and inserting the mortar respectively, A transverse earth pressure plate (113, 213) longitudinally formed at the bottom of the longitudinal earth pressure plate to generate a compressive force with respect to the transverse earth pressure, And a pointed portion (114, 214) formed to be sharp at the bottom of the fixation port body,
The truss reinforcing bars are inclined between the inner and outer struts of the inner and outer earth retaining walls, and both sides of the truss reinforcement are longitudinally inserted into the dovetail grooves of the inner and outer reinforcing bars,
Wherein the inner and outer fixing ports are formed by separating the fixing member main body and the acute portion from each other and at least one height adjusting member between the fixing member main body and the acute portion is interposed to adjust the depth of insertion of the supporting member, And a dust plate seating part (116, 216) extending in a transverse direction and provided with a dust plate receiving groove opened toward the upper part. delete delete

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