KR102514559B1 - Retaining temporary facility wall with displacement measuring device - Google Patents

Abstract

The present invention relates to a side wall assembly of a temporary earth-retaining facility. According to the present invention, the side wall assembly of the temporary earth-retaining facility includes: multiple H-beams installed by being separated at fixed intervals; and multiple blocking members forming a wall by being layered between the H-beams. The blocking member includes: a blocking member body formed in the shape of a plate; an insertion unit accommodated between flanges of the H-beam by being extended to both sides of the blocking member body; a mounting unit formed as a horizontal surface by being bent from the upper part of the blocking member body to the front side; and a front side blocking unit formed as a vertical surface between the flanges of the other H-beam adjacent to the flange of the H-beam by being bent in the vertical direction from an end of the mounting unit. According to the present invention, the side wall assembly of the temporary earth-retaining facility can improve time and structure efficiency in a construction site by maintaining water-blocking performance while simplifying the structure of the blocking member formed of metal.

Description

Retaining temporary facility wall with displacement measuring device}

The present invention relates to a device for measuring the displacement of earth retaining facilities.

In general, in order to install underground facilities such as sewage pipe work, city gas pipe, underground power plant work, large rainwater box, underground joint duct, etc. In order to prevent soil from collapsing at the excavation site during the excavation work, a retaining structure must be installed, and water-blocking work must be performed to block groundwater eluted from the ground from flowing into the excavation site.

Existing earth retaining work used a method of stabilizing the ground by inserting an H pile into the ground, inserting a wooden earth plate between them to install a retaining structure, and then filling the back of the structure with soil.

When the retaining wall is bent forward by the load of the backing soil and is deformed or a collapse accident occurs, a lot of property loss as well as human accidents may occur. Accordingly, by measuring the displacement of the retaining wall and grasping its behavior, methods for capturing and responding to signs of collapse in advance are being developed.

In the case of the prior art, in order to measure the displacement of the retaining wall, a hole is drilled to a predetermined depth on the back of the temporary wall, a guide pie is buried inside the drilling hole, and the wall is manually measured using a probe in the buried guide pipe. Displacement was measured.

This structure installs an inclinometer for major risk sections at the design or planning stage and measures the displacement of the wall periodically. there is In addition, when a sudden displacement of the wall occurs at an unexpected location among the retaining walls, conventional methods require drilling and pipe construction, so it is not easy to cope with it and it is difficult to measure the displacement immediately. In addition, when this situation occurs, the construction must be stopped and the instrument must be buried in the offshore area, which takes a lot of time and money.

The present invention provides a means for easy management and immediate displacement measurement while maintaining order performance.

In addition, the present invention provides a displacement measurement means that can be used in place of or in addition to the existing displacement measurement method.

A retaining facility displacement measuring device according to the present invention includes a plurality of H-beams provided at regular intervals; a blocking member stacked in plurality between the H-beams to form a wall; And a displacement measuring unit buried in the ground through a space between the flange of the H-beam and the blocking member; includes,

The displacement measuring unit includes a spacer formed in the shape of a square tube with one side open and forming a space inside which a displacement measuring sensor can be attached,

The blocking member may include a blocking member body formed in a plate shape; an insertion portion extending to both sides of the blocking member body and accommodated between the flanges of the H-beam; a seating portion formed in a horizontal plane by being bent from an upper portion of the blocking member body to a front side; and a front blocking portion bent in a vertical direction from an end of the seating portion and formed in a vertical plane between the flange of the H-beam and the flange of the adjacent H-beam.

In addition, a downwardly incised cutout may be formed between the insertion portion and the seating portion so that the heights of an upper surface of the insertion portion and an upper surface of the seating portion are matched.

In addition, the spacer may be inserted into the space between the insertion part and the flange of the H-beam, and the bottom may be buried in the ground.

Also, the displacement measuring sensor may be provided in plurality in a vertical direction.

Also, the displacement measurement sensor may be fixed on a separate frame inside the spacer.

According to the present invention, there is provided a displacement measuring device that can be used in place of or in addition to an existing displacement measuring device, and is easy to manage and capable of immediate displacement measurement while maintaining order performance.

In addition, the present invention provides a displacement measurement means that can be used in place of or in addition to the existing displacement measurement method.

1 is a perspective view showing a side wall assembly for retaining retaining facilities according to an embodiment of the present invention.
2 is a schematic diagram for explaining a manufacturing process of a blocking member according to an embodiment.
3 is a perspective view illustrating a displacement measuring unit according to an exemplary embodiment.
4 is a schematic diagram illustrating a method of installing a blocking member according to an exemplary embodiment.
5 and 6 are a rear perspective view and a front perspective view of a temporary earth retaining facility side wall assembly according to an embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. Unless otherwise specified or specifically defined, terms indicating directions used in this description are based on the states shown in the drawings. In addition, the same reference numerals refer to the same members throughout each embodiment. On the other hand, the thickness or dimensions of each component shown in the drawings may be exaggerated for convenience of explanation, and it does not mean that the dimensions or proportions between the components should actually be configured.

Referring to Figure 1 will be described a retaining facility side wall assembly according to an embodiment. 1 is a perspective view showing a side wall assembly for retaining retaining facilities according to an embodiment of the present invention.

The earth retaining facility side wall assembly 10 according to the present invention includes a plurality of H beams 50 spaced apart from each other and provided in plurality and a blocking member 100 stacked in plurality between the H beams 50 to form a wall include

The H beams 50 are provided in a fixed state to the ground while maintaining regular intervals, and form a support structure of the entire earth retaining facility side wall assembly 10.

The blocking members 100 are provided in a plate-like structure having a certain left and right length and are accommodated and fixed in the space between the flanges of the H beams 50, and a plurality of blocking members 100 are stacked in the vertical direction to form one wall structure. form

The displacement measuring unit 300 is buried in the ground through the space between the flange of the H-beam 50 and the blocking member 100. The displacement measuring unit 300 includes a spacer formed in the shape of a square tube with one side open and forming a space inside which a displacement measuring sensor can be attached.

Hereinafter, the configuration of the specific blocking members 100 according to the present invention and the side wall assembly of the retaining facility using the same will be described.

Referring to FIGS. 2 to 6 , a blocking member according to an embodiment and a retaining retaining facility side wall assembly including the same will be described in detail. 2 is a schematic diagram illustrating a manufacturing process of a blocking member according to an exemplary embodiment, and FIG. 3 is a perspective view illustrating a displacement measuring unit according to an exemplary embodiment. In addition, Figure 4 is a schematic diagram for explaining a method for installing a blocking member according to an embodiment, Figures 5 and 6 are a rear perspective view and a front perspective view of the temporary earth retaining facility side wall assembly according to an embodiment.

As described above, the blocking member 100 is a plate-shaped structure having a certain left and right length, and the blocking member 100 according to the present embodiment may be manufactured through a certain bending structure.

Specifically, referring to FIG. 2 , the blocking member 100 has insertion portions 103 extending to both sides of the body of the blocking member 100 based on a plate-shaped or plate-shaped body. The insert 103 is accommodated between the flanges of the H-beam described above.

The seating portion 105 is bent from the top of the body of the blocking member 100 to form a horizontal surface. At this time, it is preferable that the upper end 103u of the seating portion 105 and the insertion portion 103 are formed at the same height by forming the cutout E1.

The blocking member 100 is formed in a twice-bent shape. First, as described above, the blocking member 100 is bent once from the body (see FIG. 2 (a)) to form a seating portion 105 (see FIG. 2 (b)), and again the seating portion 105 It is bent upward from the end of the front blocking portion 101 in the form of a vertical wall is formed (see (c1) and (c2) in FIG. 2). The front blocking portion 101 according to this embodiment is provided in a vertical plane between the flange of the H-beam and the flange of the adjacent H-beam.

Referring to FIG. 3 , the displacement measurement unit 300 is formed in the shape of a square tube with one side open and inside the spacer 310 forming a space to which a displacement measuring sensor can be attached, and inside the spacer 310. It includes a displacement measuring sensor 320 provided.

A plurality of displacement measuring sensors 320 may be provided in the vertical direction, and the displacement measuring sensors 320 may be implemented as known one-way or two-way sensors capable of measuring the slope of the ground. For example, an acceleration sensor or a vibrating wire sensor may be used as the displacement measuring sensor 320 .

The spacer 310 is inserted into the space between the insertion part 103 and the flange of the H-beam 50, and the bottom thereof may be buried in the ground. It is also possible to provide a separate frame for attaching the displacement measuring sensor 320 to the inside of the spacer 310 and seating the related wires. It is also possible to insert the displacement measurement sensor 320 into the already installed spacer 310 using a separate frame.

As shown in FIGS. 4 and 5 , the blocking member 100 is stacked and assembled in such a way that both sides of the blocking member 100 , that is, insertion parts are inserted between the flanges of the H-beam 50 .

Looking in the direction of FIG. 5, the body of the blocking member 100 is laminated in such a way that the body is exposed, and looking in the opposite direction of FIG. do. It is preferable to install the side wall assembly of the retaining facility so that the side of FIG. 5 is disposed on the soil side outside the facility, and additional construction work for waterproofing such as urethane injection or application of water expansion coefficient is performed on the side of FIG. 6 desirable.

Among the displacement measurement units 300, those without displacement measuring sensors installed inside function as spacers, and those with displacement measuring sensors installed inside function as regular measuring sensors. At this time, when an emergency occurs, the displacement can be quickly measured by inserting displacement measuring sensors provided on a separate frame into the corresponding spacer without a separate drilling operation for burying the sensor.

Although the preferred embodiments of the present invention have been described above, the technical spirit of the present invention is not limited to the above-described preferred embodiments, and can be implemented in various ways within the scope of the technical spirit of the present invention embodied in the claims. there is.

10: Earth retaining facility assembly
50: H beam
100: blocking member
101: front blocking part
103: insertion part
105: seating part
310: spacer
320: displacement measurement sensor
E1: incision

Claims (5)

A plurality of H-beams provided at regular intervals;
a blocking member stacked in plurality between the H-beams to form a wall; and
A displacement measuring unit buried in the ground through a space between the flange of the H-beam and the blocking member,
The displacement measuring unit,
A spacer formed in the shape of a square tube with one side open to form a space inside which a displacement measuring sensor can be attached,
The blocking member,
A blocking member body formed in a plate shape;
an insertion portion extending to both sides of the blocking member body and accommodated between the flanges of the H-beam;
a seating portion formed in a horizontal plane by being bent from an upper portion of the blocking member body to a front side; and
The retaining facility displacement measuring device comprising a; front blocking portion which is bent in a vertical direction from the end of the seating portion and formed in a vertical plane between the flange of the H-beam and the flange of the adjacent H-beam. According to claim 1,
An incision downwardly cut between the insertion part and the seating part is formed so that the height of the upper surface of the insertion part and the upper surface of the seating part match. According to claim 1,
The spacer is inserted into the space between the insertion part and the flange of the H-beam, and the bottom is buried in the ground. According to claim 1,
The displacement measuring unit is a retaining facility displacement measuring device including a plurality of displacement measuring sensors in the vertical direction. According to claim 4,
The displacement measuring sensor is a retaining facility displacement measuring device fixed on a separate frame inside the spacer.

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