KR100775550B1 - The construction method and steel sheet structure of the steel sheet structure - Google Patents

Abstract

The present invention relates to a method for constructing a steel plate structure and a steel plate structure.

The present invention provides a method for constructing a steel plate structure in which both bottom ends of the roof steel plate are coupled to an upper portion of the base steel plate, wherein the steel plate structure includes: a base part construction step of flattening and compacting the ground on which the structure is to be constructed; A base steel sheet mounting step of seating the base steel sheet cut to a predetermined width on the compacted base portion; A channel installation step of coupling the channel to the seated base steel plate with a bolt and a nut; The lower end of the roof bent in an arch shape in the channel is characterized in that the roof is made of a steel plate installation step is coupled with another bolt and nut.

Therefore, the present invention obtains the effect of installing the steel sheet structure quickly and easily without constructing the foundation concrete in areas where the ground is soft or in mountainous areas and roads without roads, and through this construction of the steel plate structure. It will help to reduce the cost.

Foundation steel sheet, roof steel sheet, steel plate structure, foundation part, steel sheet mounting step, channel

Description

Construction method of steel plate structure and steel plate structure {THE CONSTRUCTION METHOD AND STEEL SHEET STRUCTURE OF THE STEEL SHEET STRUCTURE}

1 is a flow chart illustrating a construction method of a steel plate structure according to the present invention.

Figure 2 is a perspective view of a steel plate structure constructed by the construction method of the steel plate structure according to the present invention.

Figure 3 is an exploded perspective view of a steel plate structure constructed by the construction method of the steel plate structure according to the present invention.

4 is a longitudinal sectional view of a steel plate structure according to the present invention;

5 is a longitudinal cross-sectional view of FIG.

6 is a perspective view showing another embodiment of a steel plate structure according to the present invention.

<Brief description of symbols for the main parts of the drawings>

S10: Foundation stage S20: Foundation steel seating stage

S30: Channel installation step S40: Roof steel plate installation step

10: basic steel sheet 20: roof steel sheet

30: Channel 40, 40 ': Bolt

41,41 ': Nuts

The present invention relates to a method for constructing a steel plate structure and a steel plate structure, and in particular, by allowing the lower both sides of the steel sheet bent in an arch form to be coupled in a state seated on the upper portion of the base steel sheet, the area is soft, mountainous areas and roads It is to be able to install the steel plate structure quickly and easily without constructing the foundation concrete in places such as no country road, and also to reduce the cost of constructing the steel plate structure.

In general, the plate-shaped steel plate having a predetermined thickness and width is elastically deformed by bending it into various forms, and assembled into an axially continuous tunnel form, which is used in underground passages, water and drainage passages. It is used for various purposes such as roof, warehouse, etc.

When the size of the structure is small, such a steel plate uses one bent steel plate, and when the size is large, the bending rate is increased in the bending process, and the corrugated steel sheet is divided into several sheets, and the manufactured corrugated steel sheets are overlapped. Or through a separate assembly process such as bolting.

In addition, in order to increase the load capacity by distributing loads acting from the lateral, transverse, longitudinal and multi directions to thin steel sheets in various places, corrugated steel sheets are formed by corrugating steel plate formed by corrugation process on flat steel sheets. Done.

When constructing a structure using such a corrugated steel sheet, first excavate the ground on which the structure will be constructed to a certain depth to reinforce the foundation ground, reinforce the formwork and reinforcing bars, and then install the buried anchors and channels to cure concrete. , Dismantle the formwork.

After the formwork is dismantled, make the lower part of corrugated steel plate at right angles and fix it with bolts and nuts, which are fasteners, and repeat the bolting process of joining other corrugated steel plates in the same way between corrugated steel plates joined to the channel. The obtained steel plate structure can be obtained.

However, in order to obtain a safe steel plate structure, the ground is excavated to a certain depth to compact the ground, reinforce the formwork and reinforcing bars on the ground foundation, and then install a buried anchor and channel to cure by laying concrete and dismantling the formwork. The process is necessary, but in places such as mountainous areas and rural roads without roads, there is a difficulty in transporting materials required in the process of constructing the foundation concrete, and a lot of work time is required accordingly. In particular, there is a problem in that the construction site is delayed and the construction cost of the steel sheet structure is increased due to the impossible or more time to construct the foundation concrete in the soft ground.

The present invention has been created to solve the above problems, so that the steel plate structure can be installed quickly and easily without constructing the foundation concrete in areas such as soft ground, mountainous areas, and country roads without roads. The purpose of the present invention is to provide a method for constructing a steel sheet structure, which can reduce the cost of construction of the steel sheet structure.

In addition, another object of the present invention is to provide a steel plate structure in which the lower both sides of the bent steel plate having an arch shape are coupled to the upper part of the base steel plate seated on the ground.

In order to achieve the above object, the present invention provides a method of constructing a steel plate structure in which lower ends of both sides of the roof steel plate 20 are coupled to an upper portion of the base steel plate 10, wherein the steel plate structure flattens the ground on which the structure is to be constructed. And base construction step (S10) and compacting; A base steel seating step (S20) for seating the base steel plate 10 cut to a predetermined width on the compacted base part; A channel installation step (S30) in which the channel 30 is coupled to the seated base steel plate 10 by a bolt 40 and a nut 41; The lower end of the roof steel plate 20 bent in the arch form in the channel 30 is characterized by consisting of a roof steel plate installation step (S40) that is coupled to the bolt (40 ') and the nut (41').

In addition, the back-filling step (S50) of filling the soil 50 to a predetermined height in both longitudinal directions of the steel plate structure obtained through the roof steel plate installation step (S40) is further made.

In addition, the base steel sheet to be seated on the base portion 60 during the base steel sheet mounting step (S20) to have the form of a waveform in which the first ridge recess 11 and the first ridge convex portion 12 are continuous. The roof steel plate coupled to the channel 30 in the roof steel plate installation step S40 may have a waveform shape in which the second mountain recess 21 and the second mountain projecting part 22 are continuous. The object is achieved by providing a method for constructing a steel plate structure.

On the other hand, in the steel plate structure that is coupled to the lower end of both ends of the roof steel plate 20 to the upper portion of the base steel sheet 10,
The base steel plate 10 is configured to have a waveform form in which the first mountain recessed portion 11 and the first mountain shaped convex portion 12 are continuous, and the roof steel plate 20 is formed of the second mountain recessed portion ( 21) and the second mountainous convex portion 22 is bent in an arch shape,
The channel 30 is inserted between the base steel plate 10 and the roof steel plate 20, and each of the base steel plate 10, the roof steel plate 20, and the channel 30 is connected to the bolts 40, 40 ′ and With nuts 41 and 41 ',
The base steel plate 10 is characterized in that it is coupled in a separate form to each of the lower end of both sides of the roof steel plate 20 bent in an arch shape.

In addition, the base steel plate 10 is characterized in that it is coupled in a separate form to each lower end of both sides of the roof steel plate 20 bent in an arch shape.

And another object is achieved to provide a steel plate structure, characterized in that the surface of the base steel plate 10 and the roof steel plate 20 is configured to fill the soil 50 to a predetermined height in the longitudinal direction.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

Prior to explaining the construction method of the steel sheet structure according to the present invention, the steel sheet structure (A) obtained through this construction method is composed of a base steel plate 10 and a roof steel plate 20, as shown in FIG. It is.

Here, the base steel sheet 10 has a function of safely supporting the load of the roof steel sheet 20 to be assembled or coupled to the upper portion of the base steel sheet 10 is pressed by a roller or press having a corrugated plate (not shown) It is configured to have a form in which wrinkles are continuous on the surface thereof.

These corrugations distribute the loads acting in the lateral, transverse, longitudinal and multi directions to various places to safely support the load of the roof steel plate 20, so that the first mountain recesses 11 and the second mountain protrusions (12) is formed to have the shape of a corrugated steel sheet having a width (W) continuous to a predetermined length (L).

The roof steel plate 20 is installed on the upper portion of the base steel plate 10 to provide a predetermined space therein, and the second mountain recessed portion 21 and the second mountain shaped convex portion 22 are continuous in the longitudinal direction. It is configured to have a shape to be made, and the central portion is formed to have a bent arch shape.

In addition, the bent center is bent in a direction perpendicular to the longitudinal direction in which the second mountain concave portion 21 and the second mountain convex portion 22 are continuously configured to be able to withstand the load acting from the top. have.

On the other hand, between the upper portion of the base steel plate 10 and the lower portion of the roof steel plate 20, the channel 30 to which the base steel plate 10 and the roof steel plate 20 are coupled to each other is fitted so as to have the same length as the entire length. , The base steel plate 10 and the channel 30 and the channel 30 and the roof steel plate 20 are formed through the grooves (80, 80 ') in the portion to be joined, respectively, the bolts 40, 40' and It is comprised so that it may couple with the nuts 41 and 41 '.

And the surface of the roof steel plate 10 and the roof steel plate 20 is configured to fill the soil 50 to a predetermined height in the longitudinal direction.

The construction method of the steel plate structure having such a structure, as shown in FIG. 1, first, planarizing and compacting the ground on which the structure is constructed in the foundation construction step (S10), and predetermined on the compacted foundation 60 The base steel plate 10 cut to the width is seated. (Basic steel sheet mounting step (S20) At this time, the base steel sheet 10 to be seated on the base portion 60 is the first mountain recess 11 and the first Since the ridges 12 are formed in a continuous wave form, a part of the base portion 60 is inserted between the lower portions of the first ridges 12, and the position thereof is changed due to sliding after construction. It is possible to prevent the change.

Next, the channels 30 and 30 ′ are placed on the seated base steel plate 10, and the through grooves 80 are formed through the drilling operations, and the bolts 40 are formed in the through grooves 80. And the channel 30 is fixed to the base steel plate 10 through the channel installation step S30 for coupling with the nut 41.

Subsequently, the lower end of the roof steel plate 20 bent in an arch shape in the channel 30 is positioned, and then the channel 30 and the roof steel plate are formed in the same process as the through groove 80 is formed in the channel installation step S30. Steel plate structure (A) is obtained through the roof steel plate installation step (S40) to form another through groove (80 ') between the (20) by coupling with another bolt 40' and the nut (41 ').

At this time, the roof steel plate 20 coupled to the channel 30 in the roof steel plate installation step S40 has a waveform shape in which the second mountain recess 21 and the second mountain projecting part 22 are continuous. By dispersing the load or impact force acting from various directions, it is possible to prevent the surface from being deformed.

On the other hand, the steel plate structure (A) obtained through the roof steel plate installation step (S40) can be used just, the backfill to fill the soil 50 to a predetermined height in both longitudinal directions of the steel plate structure (A) obtained through this construction step. Step S50 may be used to further perform.

In the present invention, the base steel plate 10 supporting the roof steel plate 20 from the lower portion was used to have the shape of a waveform which is one formed so that the ridge convex portion 11 and the ridge convex portion 12 are continuous, as shown in FIG. As shown, it can be used by combining the other base steel plate (10 ') having a separate form in each of the lower end of both ends of the roof steel sheet 20 bent in an arch shape.

As described above, the present invention allows the lower both sides of the steel sheet bent in an arch shape to be coupled in a state of being seated on the upper portion of the base steel sheet, thereby constructing the foundation concrete in a place where the ground is soft, a mountainous region, and a country road without a road. It is possible to obtain an effect that can be installed quickly and easily without doing so.

In addition, since the construction of the foundation concrete can achieve an effect that can further reduce the cost required for the construction of the structure.

Claims (6)

In the construction method of the steel plate structure that the lower ends of both ends of the roof steel plate 20 is coupled to the upper portion of the base steel sheet 10, The steel plate structure and the base portion construction step (S10) for flattening and compacting the ground on which the structure is to be constructed; A base steel seating step (S20) for seating the base steel plate 10 on the compacted base part; A channel installation step (S30) in which the channel 30 is coupled to the seated base steel plate 10 by a bolt 40 and a nut 41; A roof steel plate installation step (S40) in which a lower end of the roof steel plate 20 bent in an arch shape to the channel 30 is coupled with a bolt 40 ′ and a nut 41 ′; It comprises a back filling step (S50) of filling the soil 50 in both longitudinal directions of the steel plate structure obtained through the roof steel plate installation step (S40), The base steel plate 10 to be seated on the base portion 60 during the base steel sheet mounting step (S20) has a waveform form in which the first mountain recessed portion 11 and the first mountain shaped convex portion 12 are continuous. Formed, The roof steel plate 20 coupled to the channel 30 in the roof steel plate installation step S40 is formed to have a waveform shape in which the second mountain recessed portion 21 and the second mountain shaped convex portion 22 are continuous. Construction method of the steel plate structure, characterized in that. delete delete In the steel plate structure that is coupled to the lower end of both ends of the roof steel plate 20 to the upper portion of the base steel sheet 10, The base steel plate 10 is configured to have a waveform form in which the first mountain recessed portion 11 and the first mountain shaped convex portion 12 are continuous, and the roof steel plate 20 is formed of the second mountain recessed portion ( 21) and the second mountainous convex portion 22 is bent in an arch shape, The channel 30 is inserted between the base steel plate 10 and the roof steel plate 20, and each of the base steel plate 10, the roof steel plate 20, and the channel 30 is connected to the bolts 40, 40 ′ and With nuts 41 and 41 ', The surface of the base steel plate 10 and the roof steel plate 20 is configured to be filled with soil 50 in the longitudinal direction, The base steel plate 10 is characterized in that the steel plate structure is coupled to each other in a separate form at the lower end of both ends of the roof steel sheet 20 bent in an arch shape. delete delete

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